CN220287521U - Cooking utensil - Google Patents

Abstract

The utility model provides a cooking appliance, comprising: the box body is internally provided with a cooking cavity; the containing part is arranged in the cooking cavity and used for containing food materials; the microwave assembly is connected with the box body and used for transmitting microwaves into the cooking cavity; the hot air assembly is connected with the box body; wherein, set up the air outlet on the box, under the condition of holding the position in the culinary art intracavity, the air outlet is relative with the opening that holds the position, and the hot-blast that hot-blast subassembly produced is carried to the culinary art intracavity through the air outlet.

Description

Cooking utensil

Technical Field

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

Background

In the related art, in the cooking process of food materials such as French fries or chicken, the microwave oven has longer cooking time, uneven surface color of the food materials and poorer cooking effect.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art.

To this end, the present utility model provides a cooking appliance.

The present utility model provides a cooking appliance, comprising: the box body is internally provided with a cooking cavity; the containing part is arranged in the cooking cavity and used for containing food materials; the microwave assembly is connected with the box body and used for transmitting microwaves into the cooking cavity; the hot air assembly is connected with the box body; wherein, set up the air outlet on the box, under the condition of holding the position in the culinary art intracavity, the air outlet is relative with the opening that holds the position, and the hot-blast that hot-blast subassembly produced is carried to the culinary art intracavity through the air outlet.

The cooking utensil comprises a box body, wherein a cooking cavity is formed in the box body and used for placing food materials to be cooked, and particularly, a containing part can be arranged in the cooking cavity, before the food materials are cooked, the food materials can be placed in the containing part, and then the containing part is placed in the cooking cavity to cook.

Further, the cooking utensil further comprises a microwave assembly and a hot air assembly, wherein the microwave assembly is used for generating microwaves so as to realize microwave cooking of food materials in the cooking cavity. Correspondingly, the hot air component is used for conveying hot air into the cooking cavity, so that hot air cooking of food materials in the cooking cavity is realized, namely, the air frying effect of the food materials is realized.

Specifically, the air outlet is formed in the box body, and through the air outlet, hot air generated by the hot air component can be conveyed into the cavity. Meanwhile, under the condition that the containing part is positioned in the cooking cavity, the air outlet is opposite to the opening of the containing part. That is, after passing through the air outlet, the hot air generated by the hot air component can be directly blown to the opening of the containing part, namely, directly blown to the food to be cooked on the containing part, so that the surface of the food is subjected to the action of the hot air more uniformly, and the surface of the food to be cooked is subjected to hot air cooking.

The cooking utensil provided by the utility model comprises the microwave component and the hot air component, wherein the microwave component is used for conveying microwaves into the cooking cavity of the cooking utensil so as to realize microwave cooking of food materials in the cooking cavity, and the hot air component is used for conveying hot air into the cooking cavity of the cooking utensil so as to realize hot air cooking of the food materials in the cooking cavity, namely air frying of the food materials. Through the setting of microwave subassembly and hot-blast subassembly, realized through microwave and the cooperation of air frying two kinds of functions to food culinary art to improve the culinary art efficiency of food. Further, an air outlet is formed in the box body of the cooking appliance and used for supplying hot air of the hot air supply assembly to pass through so as to convey the hot air into the cooking cavity. Simultaneously, under the condition that holding the position in the culinary art intracavity, the air outlet is relative with the opening that holds the portion to make the hot-blast surface that can directly blow to the edible material on holding the portion that the air outlet blows out, and make edible material surface receive hot-blast effect more even, and then improve the air-dried crust and the coloring effect on edible material surface, also improve the culinary art effect of edible material promptly.

In addition, the cooking appliance provided by the technical scheme of the utility model can also have the following additional technical characteristics:

in the above technical solution, further, the hot air assembly includes: the cover body is attached to the box body and positioned outside the cooking cavity, the cover body is provided with a containing cavity, and an opening of the containing cavity is opposite to the air outlet; the air supply part is connected with the cover body and used for driving air in the cover body to flow into the cooking cavity; and the heating part is arranged in the accommodating cavity.

In this technical scheme, hot-blast subassembly includes the cover body and is located the internal portion that generates heat of cover, and wherein, the cover body laminating is provided with on the box and holds the chamber on the cover body, and the portion that generates heat sets up in holding the intracavity, simultaneously, holds the opening in chamber and air outlet relatively. Like this, be located the interior heat that generates heat portion sent of holding the intracavity and can gather in the holding portion, simultaneously, the opening and the air outlet of holding portion are relative for the interior hot air of holding portion can directly get into the culinary art intracavity through the air outlet.

Further, the hot air assembly further comprises an air supply part, the air supply part is connected with the cover body, and hot air in the accommodating cavity of the cover body can be driven through the arrangement of the air supply part, so that the hot air in the accommodating cavity is conveyed into the cooking cavity through the air outlet, and the air frying function of the cooking appliance is realized.

Through the setting of the cover body and holding the chamber, can realize on the one hand that the portion that generates heat is fixed, guarantee the stability of the position of portion that generates heat. On the other hand, the air heated by the heating part can be gathered, so that heat loss is reduced, and the operation efficiency of the heating part is improved. Further, through the arrangement of the air supply part, the hot air can be conveyed, the conveying effect of hot air is improved, and the air frying effect of the cooking utensil is further improved.

In any of the above aspects, further, the air blowing unit includes: the driving piece is connected with the cover body and positioned outside the accommodating cavity, and an output shaft of the driving piece penetrates through the cover body and stretches into the accommodating cavity; the fan blade is connected with the output shaft of the driving piece, and the driving piece can drive the fan blade to rotate.

In this technical scheme, air supply portion includes driving piece and flabellum, and wherein, the output shaft and the flabellum of driving piece are connected to can realize driving the flabellum through the driving piece, make the flabellum can drive gas flow, and then carry the hot air in the portion of holding to the culinary art intracavity through the air outlet.

Specifically, the driving piece is arranged outside the accommodating cavity, and an output shaft of the driving piece penetrates through the cover body and stretches into the accommodating cavity. The driving piece is arranged outside the accommodating cavity, so that on one hand, the volume of the accommodating cavity can be reduced, and the manufacturing of the cover body is facilitated. On the other hand, can avoid the portion during operation that generates heat, hold the operation that the interior high temperature gas in chamber caused the influence to the driving piece, guarantee that the driving piece can steady operation.

Further, the fan blade is located in the accommodating cavity and is connected with the output shaft of the driving piece, so that high-temperature gas in the accommodating cavity can be directly driven to be conveyed to the surface of the food through the air outlet in the rotating process of the fan blade.

Specifically, the air outlet on the box is opposite to the opening of the containing part, so that hot air blown out from the air outlet can be conveyed to the surface of the food through the bracket, and the surface of the food is more uniformly affected by the hot air. Thus, the rotation speed of the driving member can be increased to improve the efficiency of hot air cooking on the surface of the food material, and the phenomenon of uneven heating partially occurs. Specifically, the driving member may be a motor, and the rotational speed of the motor may be increased to 2000r/min during operation.

In any of the above aspects, further, the heat generating portion includes: the bracket is connected with the cover body; the heating tube is arranged on the bracket and is wound on the circumferential outer side of the fan blade along the circumferential direction of the fan blade.

In this technical scheme, the portion that generates heat can include support and heating tube, and wherein, support and cover body are connected, and the heating tube sets up on the support. Thereby realize the support to the heating tube through the support, guarantee the stability of heating tube's position.

Wherein, the support can set up on holding the circumference inner wall in chamber, and correspondingly, the heating tube can be the annular setting to place on the support, like this, can make the heating tube around locating the circumference outside of flabellum along the circumference of flabellum. In the rotation process of the fan blade, air moves along the circumferential direction of the fan blade to drive hot air around the heating tube to flow, and the air in the accommodating cavity flows into the cooking cavity along the circumferential direction of the air outlet under the guiding action of the side wall of the accommodating cavity, and meanwhile, the air in the accommodating cavity can flow back into the accommodating cavity from the middle part of the fan blade.

In any of the above solutions, further, the hot air assembly further includes: the heat insulating plate is arranged on the cover body, the heat insulating plate is positioned between the driving piece and the cover body, and the driving piece is connected with the heat insulating plate.

In this technical scheme, hot-blast subassembly still includes the heat insulating board, and the heat insulating board sets up on the cover body, and is located between driving piece and the cover body. That is, the heat shield has a through hole so that the output shaft of the driving member can pass through the through hole and then pass through the cover body to enter the accommodating cavity.

Through the setting of heat insulating board, can realize the thermal-insulated between driving piece and the cover body surface to avoid the too high operation of driving piece that causes the influence of heat, guarantee that driving piece can stable operation.

In any of the above solutions, further, the hot air assembly further includes: the heat insulation piece is arranged on the cover body and is positioned between the cover body and the heat insulation plate.

In this technical scheme, hot-blast subassembly still includes the setting up the insulating part between heat insulating board and the cover body, through the setting of insulating part, can directly insulate against heat between heat insulating board and the cover body, can reduce the heating of the cover body on the one hand, avoids the outside driving piece of cover body to receive thermal influence, guarantees driving piece steady operation. On the other hand, the heat loss can be reduced, thereby ensuring the operation efficiency of the heating part.

Further, the heat insulating piece can include thermal insulation cotton, through the setting of thermal insulation cotton, can play the thermal-insulated effect between portion and the cover body generate heat, can also play certain shock attenuation effect, avoid the in-process of driving piece operation to produce great noise, improve cooking utensil's use experience.

In any of the above technical solutions, further, the cooking appliance further includes: the metal mesh cover is covered on the air outlet.

In this technical scheme, can also cover on the air outlet and be equipped with the metal screen panel, through the setting of metal screen panel, on the one hand, can play and hold the isolation between chamber and the culinary art chamber, avoid the culinary art intracavity to have the oil stain or food residue to get into and hold the intracavity and cause the influence to the operation of portion that generates heat and drive portion. On the other hand, through the screen panel of metal material, can also play the effect that separates magnetism, avoid the microwave that produces when the microwave subassembly operation to lead to the fact the influence to hot-blast subassembly, guarantee hot-blast subassembly's stability in use.

In any of the above technical solutions, further, a microwave outlet is further provided on the case, the microwave outlet is located on the bottom wall of the case, and the microwave assembly includes: a magnetron connected with the box body for generating microwaves; one end of the waveguide tube is connected with the magnetron, the other end of the waveguide tube is communicated with the microwave outlet, and microwaves generated by the magnetron are conveyed into the cooking cavity through the waveguide tube.

In this embodiment, the microwave assembly includes a magnetron for generating microwaves and a waveguide having one end in communication with the magnetron so that microwaves generated by the magnetron can enter the waveguide and be transmitted along the waveguide.

Further, a microwave outlet is formed in the box body and is communicated with the other end of the waveguide tube, so that microwaves in the waveguide tube can be conveyed into the cooking cavity through the microwave outlet, and further microwave heating of food in the cooking cavity is achieved. Wherein the microwave outlet may be provided on the bottom wall of the cabinet, i.e. microwaves can enter the cooking cavity from the bottom of the cabinet. The hot air generated by the hot air component can enter from the air outlet at the top of the box body, so that the operation mode of high-speed hot air heating at the top of the cooking appliance and microwave heating at the bottom is realized, the cooking efficiency of food materials is improved, and interference between the hot air component and the microwave component is avoided.

In any of the above technical solutions, further, the cooking appliance further includes: the shell, the box body, the hot air component and the microwave component are all arranged in the shell.

In the technical scheme, the box body, the hot air component and the microwave component are arranged in the shell of the cooking utensil, so that the box body, the hot air component and the microwave component are protected, and external impact is avoided. Meanwhile, the structural integrity of the cooking utensil is improved, and the cooking utensil is convenient to carry.

In any of the above embodiments, further, the cooking appliance comprises a microwave oven.

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

Drawings

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

fig. 1 illustrates a schematic structure of a cooking appliance provided according to an embodiment of the present utility model.

The correspondence between the reference numerals and the component names in fig. 1 is:

100 cooking utensil, 102 box, 104 holding portion, 106 microwave subassembly, 108 hot air subassembly, 110 air outlet, 112 cover, 114 air supply portion, 116 heat insulating board, 118 magnetron, 120 waveguide, 122 cooking cavity.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

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

A cooking appliance provided according to some embodiments of the present utility model is described below with reference to fig. 1.

The utility model provides a cooking utensil 100, as shown in FIG. 1, comprising a box 102, wherein a cooking cavity 122 is formed in the box 102; the cooking device further comprises a containing part 104, wherein the containing part 104 is arranged in the cooking cavity 122 and is used for containing food materials; the microwave assembly 106 and the hot air assembly 108 are also included, and the microwave assembly 106 is connected with the box 102 and is used for emitting microwaves into the cooking cavity 122; the hot air assembly 108 is connected with the box 102; wherein, the case 102 is provided with an air outlet 110, and when the accommodating portion 104 is located in the cooking cavity 122, the air outlet 110 is opposite to the opening of the accommodating portion 104, and the hot air generated by the hot air assembly 108 is conveyed into the cooking cavity 122 through the air outlet 110.

The cooking appliance 100 provided by the utility model comprises a box body 102, wherein a cooking cavity 122 is formed in the box body 102, the cooking cavity 122 is used for placing food to be cooked, specifically, a containing part 104 can be arranged in the cooking cavity 122, before the food is cooked, the food can be placed in the containing part 104, and then the containing part 104 is placed in the cooking cavity 122 for cooking.

Further, the cooking appliance 100 further includes a microwave assembly 106 and a hot air assembly 108, wherein the microwave assembly 106 is configured to generate microwaves to perform microwave cooking on the food in the cooking cavity 122. Accordingly, the hot air assembly 108 is used for delivering hot air into the cooking cavity 122, so as to perform hot air cooking on the food material in the cooking cavity 122, that is, to achieve the air frying effect on the food material.

Specifically, the casing 102 is provided with an air outlet 110, and through the air outlet 110, the hot air generated by the hot air component 108 can be conveyed into the cavity. Meanwhile, in the case that the accommodating part 104 is located in the cooking cavity 122, the air outlet 110 is opposite to the opening of the accommodating part 104. That is, after passing through the air outlet 110, the hot air generated by the hot air assembly 108 can be directly blown to the opening of the accommodating portion 104, that is, directly blown to the food to be cooked on the accommodating portion 104, so that the surface of the food is more uniformly affected by the hot air, and hot air cooking on the surface of the food to be cooked is realized.

For example, in the process of cooking food such as French fries or chicken, after the food is placed on the accommodating portion 104 and the accommodating portion 104 is placed in the cooking cavity 122, the microwave assembly 106 is turned on first, and microwave heating is implemented on the food by the microwave assembly 106, in this process, the temperature of the food can quickly reach the temperature (90-100 ℃) at which water can be largely evaporated under the action of microwave heating, and after the water of the food is evaporated for a period of time, particularly, dehydration of the food reaches between 40% and 60% is optimal. The hot air assembly 108 is then turned on to perform hot air cooking on the food material, that is, the cooking appliance 100 is switched to an air frying function, and the surfaces of the French fries or chicken nuggets are further air-dried and crusted and colored by heat convection. Realizing the effect of quickly cooking the French fries or chicken nuggets. In the air frying process, since the air outlet 110 on the box 102 is opposite to the opening of the containing portion 104, that is, the air outlet 110 is opposite to the food on the containing portion 104, the hot air blown out by the air outlet 110 can be directly conveyed to the surface of the food, so that the surface of the food is air-dried and crusted and colored, the surface of the food is enabled to be more uniformly affected by the hot air, and the coloring effect of the surface of the food is improved.

Further, the cooking appliance 100 may further include a controller connected to the microwave assembly 106 and the hot air assembly 108, respectively, so that the operation of the microwave assembly 106 and the hot air assembly 108 may be controlled. Specifically, when cooking starts, the controller controls the microwave assembly 106 to operate, and after the microwave assembly 106 operates for a certain time, the controller controls the microwave assembly 106 to stop operating, and controls the hot air assembly 108 to operate until cooking is completed, and controls the hot air assembly 108 to stop operating.

The cooking utensil 100 provided by the utility model comprises a microwave assembly 106 and a hot air assembly 108, wherein the microwave assembly 106 is used for conveying microwaves into a cooking cavity 122 of the cooking utensil 100 so as to realize microwave cooking of food materials in the cooking cavity 122, and the hot air assembly 108 is used for conveying hot air into the cooking cavity 122 of the cooking utensil 100 so as to realize hot air cooking of the food materials in the cooking cavity 122, namely air frying of the food materials. Through the arrangement of the microwave component 106 and the hot air component 108, the cooking of the food materials is realized through the cooperation of the microwave function and the air frying function, so that the cooking efficiency of the food materials is improved. Further, an air outlet 110 is provided on the casing 102 of the cooking apparatus 100, and the air outlet 110 is used for passing hot air of the hot air supply assembly 108, so as to convey the hot air into the cooking cavity 122. Meanwhile, under the condition that the containing part 104 is located in the cooking cavity 122, the air outlet 110 is opposite to the opening of the containing part 104, so that hot air blown out by the air outlet 110 can be directly blown to the surface of the food on the containing part 104, the surface of the food is enabled to be more uniformly affected by the hot air, and further, the air drying crust and coloring effect of the surface of the food are improved, namely, the cooking effect of the food is improved.

In the above embodiment, further, as shown in fig. 1, the hot air assembly 108 includes a cover 112, where the cover 112 is attached to the case 102 and is located outside the cooking cavity 122, and a receiving cavity is provided on the cover 112, and an opening of the receiving cavity is opposite to the air outlet 110; the hot air assembly 108 further comprises an air supply part 114, and the air supply part 114 is connected with the cover 112 and is used for driving air in the cover 112 to flow into the cooking cavity 122; the hot air assembly 108 further includes a heat generating portion (not shown) disposed within the receiving cavity.

In this embodiment, the hot air assembly 108 includes a cover 112 and a heating portion located in the cover 112, where the cover 112 is attached to the box 102, a containing cavity is disposed on the cover 112, and the heating portion is disposed in the containing cavity, and meanwhile, an opening of the containing cavity is opposite to the air outlet 110. In this way, the heat emitted by the heating part in the accommodating cavity can be accumulated in the accommodating part, and meanwhile, the opening of the accommodating part is opposite to the air outlet 110, so that the hot air in the accommodating part can directly enter the cooking cavity 122 through the air outlet 110.

Further, the hot air assembly 108 further includes an air supply part 114, the air supply part 114 is connected with the cover 112, and through the arrangement of the air supply part 114, the hot air in the accommodating cavity of the cover 112 can be driven, so that the hot air in the accommodating cavity is conveyed into the cooking cavity 122 through the air outlet 110, and the air frying function of the cooking appliance 100 is realized.

Through the setting of the cover 112 and holding the chamber, can realize on the one hand that the portion that generates heat is fixed, guarantees the stability of the position of portion that generates heat. On the other hand, the air heated by the heating part can be gathered, so that heat loss is reduced, and the operation efficiency of the heating part is improved. Further, by providing the air blowing part 114, the hot air can be supplied, the hot air supply effect can be improved, and the air frying effect of the cooking appliance 100 can be improved.

Further, the air supply part 114 includes a driving part and fan blades, wherein the driving part is connected with the cover 112 and is located outside the accommodating cavity, and an output shaft of the driving part penetrates through the cover 112 and stretches into the accommodating cavity; the flabellum is connected with the output shaft of driving piece, and driving piece can drive the flabellum and rotate.

Specifically, the air supply part 114 includes a driving part and a fan blade, wherein an output shaft of the driving part is connected with the fan blade, so that the fan blade can be driven by the driving part, so that the fan blade can drive air to flow, and then hot air in the accommodating part is conveyed into the cooking cavity 122 through the air outlet 110.

Specifically, the driving member is disposed outside the accommodating chamber, and an output shaft of the driving member protrudes into the accommodating chamber through the cover 112. The driving member is arranged outside the accommodating cavity, so that on one hand, the volume of the accommodating cavity can be reduced, and the manufacturing of the cover 112 is facilitated. On the other hand, can avoid the portion during operation that generates heat, hold the operation that the interior high temperature gas in chamber caused the influence to the driving piece, guarantee that the driving piece can steady operation.

Further, the fan blade is located in the accommodating cavity and is connected with the output shaft of the driving piece, so that the high-temperature gas in the accommodating cavity can be directly driven to be conveyed to the surface of the food through the air outlet 110 in the rotating process of the fan blade.

Specifically, the air outlet 110 on the box 102 is opposite to the opening of the containing portion 104, so that the hot air blown out by the air outlet 110 can be conveyed to the surface of the food material through the bracket, and the surface of the food material is more uniformly affected by the hot air. Thus, the rotation speed of the driving member can be increased to improve the efficiency of hot air cooking on the surface of the food material, and the phenomenon of uneven heating partially occurs. Specifically, the driving member may be a motor, and the rotational speed of the motor may be increased to 2000r/min during operation.

In any of the above embodiments, further, the heat generating part includes a bracket and a heat generating tube, wherein the bracket is connected with the cover 112; the heating tube is arranged on the support, and the heating tube is wound on the circumferential outer side of the fan blade along the circumferential direction of the fan blade.

In this embodiment, the heat generating part may include a bracket connected with the cover 112 and a heat generating pipe disposed on the bracket. Thereby realize the support to the heating tube through the support, guarantee the stability of heating tube's position.

Wherein, the support can set up on holding the circumference inner wall in chamber, and correspondingly, the heating tube can be the annular setting to place on the support, like this, can make the heating tube around locating the circumference outside of flabellum along the circumference of flabellum. During the rotation of the fan blade, the air moves around along the circumferential direction of the fan blade to drive the hot air around the heating tube to flow, and the air in the accommodating cavity flows into the cooking cavity 122 along the circumferential direction of the air outlet 110 under the guiding action of the side wall of the accommodating cavity, and meanwhile, the air in the accommodating cavity can flow back into the accommodating cavity from the middle part of the fan blade.

In any of the above embodiments, further, as shown in fig. 1, the hot air assembly 108 further includes a heat insulation plate 116, the heat insulation plate 116 is disposed on the cover 112, the heat insulation plate 116 is located between the driving member and the cover 112, and the driving member is connected to the heat insulation plate 116.

In this embodiment, the hot air assembly 108 further includes a heat shield 116, the heat shield 116 being disposed on the housing 112 and between the driving member and the housing 112. That is, the heat shield 116 has a through hole therein so that the output shaft of the driver can pass through the through hole and thus through the housing 112 into the receiving chamber.

Through the setting of heat insulating board 116, can realize the thermal-insulated between driving piece and the cover 112 surface to avoid the too high operation that causes the influence to the driving piece of heat, guarantee that the driving piece can steady operation.

Further, the hot blast assembly 108 also includes a thermal shield disposed on the shroud 112, the thermal shield being positioned between the shroud 112 and the thermal shield 116.

Specifically, the hot air assembly 108 further comprises a heat insulation member arranged between the heat insulation plate 116 and the cover 112, and the heat insulation member is arranged to directly insulate heat between the heat insulation plate 116 and the cover 112, so that on one hand, the heat generation of the cover 112 can be reduced, the influence of heat on a driving member outside the cover 112 is avoided, and the stable operation of the driving member is ensured. On the other hand, the heat loss can be reduced, thereby ensuring the operation efficiency of the heating part.

Further, the heat insulating member may include heat insulating cotton (not shown in the figure), and through the arrangement of the heat insulating cotton, the heat insulating effect between the heating part and the cover 112 can be achieved, and a certain damping effect can be achieved, so that larger noise generated in the operation process of the driving member is avoided, and the use experience of the cooking utensil 100 is improved.

Further, the cooking apparatus 100 further includes a metal mesh cover, and the metal mesh cover is covered on the air outlet 110.

Specifically, can also cover on air outlet 110 and be equipped with the metal screen panel, through the setting of metal screen panel, on the one hand, can play and hold the isolation between chamber and the culinary art chamber 122, avoid having the oil stain or the food waste in the culinary art chamber 122 to get into and hold the intracavity and cause the influence to the operation of portion that generates heat and drive portion. On the other hand, through the screen panel of metal material, can also play the effect of magnetism separating, avoid the microwave that produces when microwave subassembly 106 operation to cause the influence to hot-blast subassembly 108, guarantee the stability in use of hot-blast subassembly 108.

In any of the above embodiments, further, the case 102 is further provided with a microwave outlet, the microwave outlet is located on the bottom wall of the case 102, and the microwave assembly 106 includes: a magnetron 118 connected to the case 102 for generating microwaves; the waveguide 120, one end of the waveguide 120 is connected to the magnetron 118, the other end of the waveguide 120 is connected to the microwave outlet, and microwaves generated from the magnetron 118 are transferred into the cooking cavity 122 through the waveguide 120.

In this embodiment, the microwave assembly 106 includes a magnetron 118 and a waveguide 120, wherein the magnetron 118 is configured to generate microwaves, and one end of the waveguide 120 is in communication with the magnetron 118 such that microwaves generated by the magnetron 118 can enter the waveguide 120 and propagate along the waveguide 120.

Further, a microwave outlet is formed on the case 102 and is communicated with the other end of the waveguide 120, so that microwaves in the waveguide 120 can be transmitted into the cooking cavity 122 through the microwave outlet, and further microwave heating of food in the cooking cavity 122 is realized. Wherein the microwave outlet may be provided in the bottom wall of the housing 102, i.e. microwaves can enter the cooking cavity 122 from the bottom of the housing 102. The hot air generated by the hot air component 108 can enter from the air outlet 110 at the top of the box 102, so that the operation mode of high-speed hot air heating at the top of the cooking utensil 100 and microwave heating at the bottom is realized, the cooking efficiency of food materials is improved, and interference between the hot air component 108 and the microwave component 106 is avoided.

Further, the cooking appliance 100 further includes a housing, in which the cabinet 102, the hot air assembly 108, and the microwave assembly 106 are disposed.

Specifically, the box 102, the hot air assembly 108 and the microwave assembly 106 are arranged in the casing of the cooking utensil 100, so that the box 102, the hot air assembly 108 and the microwave assembly 106 are protected from external impact. And simultaneously, the structural integrity of the cooking utensil 100 is improved, and the cooking utensil is convenient to carry.

Further, the cooking appliance 100 includes a microwave oven.

In the description of the present utility model, the term "plurality" means two or more, unless explicitly defined otherwise, the orientation or positional relationship indicated by the terms "upper", "lower", etc. are based on the orientation or positional relationship shown in the drawings, merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present utility model; the terms "coupled," "mounted," "secured," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, 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 utility model. In this specification, schematic representations of the above terms 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 is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A cooking appliance, comprising:

the box body is internally provided with a cooking cavity;

the containing part is arranged in the cooking cavity and used for containing food materials;

the microwave assembly is connected with the box body and used for emitting microwaves into the cooking cavity;

the hot air assembly is connected with the box body;

the box body is provided with an air outlet, and under the condition that the containing part is positioned in the cooking cavity, the air outlet is opposite to the opening of the containing part, and hot air generated by the hot air component is conveyed into the cooking cavity through the air outlet.

2. The cooking appliance of claim 1, wherein the hot air assembly comprises:

the cover body is attached to the box body and positioned outside the cooking cavity, a containing cavity is arranged on the cover body, and an opening of the containing cavity is opposite to the air outlet;

the air supply part is connected with the cover body and used for driving air in the cover body to flow into the cooking cavity;

and the heating part is arranged in the accommodating cavity.

3. The cooking appliance of claim 2, wherein the air supply part comprises:

the driving piece is connected with the cover body and is positioned outside the accommodating cavity, and an output shaft of the driving piece penetrates through the cover body and stretches into the accommodating cavity;

the fan blade is connected with the output shaft of the driving piece, and the driving piece can drive the fan blade to rotate.

4. A cooking appliance according to claim 3, wherein the heat generating portion comprises:

the bracket is connected with the cover body;

the heating tube is arranged on the bracket, and the heating tube is wound on the circumferential outer side of the fan blade along the circumferential direction of the fan blade.

5. The cooking appliance of claim 3, wherein the hot air assembly further comprises:

the heat insulation plate is arranged on the cover body, the heat insulation plate is positioned between the driving piece and the cover body, and the driving piece is connected with the heat insulation plate.

6. The cooking appliance of claim 5, wherein the hot air assembly further comprises:

the heat insulation piece is arranged on the cover body and is positioned between the cover body and the heat insulation plate.

7. The cooking appliance of any one of claims 1 to 6, further comprising:

the metal mesh cover is covered on the air outlet.

8. The cooking appliance of any one of claims 1 to 6, wherein the housing is further provided with a microwave outlet, the microwave outlet being located on a bottom wall of the housing, the microwave assembly comprising:

a magnetron connected with the box body and used for generating microwaves;

the microwave oven comprises a microwave guide tube, wherein one end of the microwave guide tube is connected with the magnetron, the other end of the microwave guide tube is communicated with the microwave outlet, and microwaves generated by the magnetron are conveyed into the cooking cavity through the microwave guide tube.

9. The cooking appliance of any one of claims 1 to 6, further comprising:

the box body, the hot air component and the microwave component are all arranged in the shell.

10. The cooking appliance of any one of claims 1 to 6, wherein the cooking appliance comprises a microwave oven.