CN219813800U - Cooking apparatus - Google Patents

Abstract

The application discloses cooking equipment. The cooking device comprises a bearing structure, a plurality of film tearing structures and a plurality of pot body structures. In the height direction of the bearing structure, a film tearing structure is arranged on the top of the bearing structure and is used for tearing the packaging film on the material box to release the materials in the material box. The pot body structures are arranged on the bearing structure and correspond to the film tearing structures respectively, and the pot body structures are used for receiving materials released by the film tearing structures and cooking the materials. In the cooking equipment, the plurality of pot body structures are arranged on the bearing structure and correspond to the plurality of film tearing structures respectively, and the pot body structures can receive materials released by the film tearing structures and cook the materials, so that the cooking equipment can cook a plurality of different dishes at the same time, and the cooking efficiency of the cooking equipment is improved.

Description

Cooking apparatus

Technical Field

The application relates to the technical field of cooking, in particular to cooking equipment.

Background

With the development of technology, automation and intellectualization of kitchen work have become a trend, and thus cooking apparatuses have been developed. At present, the existing cooking equipment generally utilizes a pot body structure to process materials so as to finish cooking of dishes. Generally, only one pot structure is provided in the cooking apparatus. However, if a user needs to cook a plurality of different dishes at the same time, a single pot structure can only cook a plurality of different dishes in sequence, and the cooking efficiency is low. Thus, how to realize that the cooking apparatus can cook different dishes simultaneously is a problem to be solved by those skilled in the art.

Disclosure of Invention

The cooking device of certain embodiments of the present utility model comprises a carrying structure, a plurality of film tearing structures and a plurality of pot structures. In the height direction of the bearing structure, the film tearing structure is arranged on the top of the bearing structure and is used for tearing the packaging film on the material box to release the materials in the material box. The pot body structures are arranged on the bearing structure and correspond to the film tearing structures respectively, and the pot body structures are used for receiving materials released by the film tearing structures and cooking the materials.

In certain embodiments, the pan structure includes a pan assembly and a stirring assembly. The bearing structure comprises a bearing piece, a supporting piece arranged on the bearing piece and a bearing piece arranged on the supporting piece. The pan body assembly is movably mounted to the support member and is capable of moving away from or approaching the carrier member. The bearing piece is opposite to the bearing piece, and the stirring assembly is arranged on one side of the bearing piece, which faces the bearing piece.

In certain embodiments, the tear film structure includes a support assembly, a push box assembly, and a tear film assembly. The bearing assembly is installed in the bearing piece, and is equipped with the accommodation space that is used for acceping the magazine, the magazine can be in along first direction removal in the accommodation space, the bearing assembly is equipped with the dog-house that link up, the dog-house is located on the travel path of magazine. At least a part of the pushing box component stretches into the accommodating space, and the pushing box component is used for pushing the material box to move in the accommodating space along the first direction. The film tearing assembly is arranged on the supporting assembly, the film tearing assembly is used for carrying out film tearing operation on the material box, the pushing assembly pushes the material box to enable any blanking port on the material box to correspond to the material feeding port, and the packaging film at the blanking port is torn by the film tearing assembly, so that materials in the material box fall out from the blanking port and the material feeding port in sequence.

In some embodiments, the support member is provided with a blanking port, and the pushing component pushes the material box to enable any blanking port on the material box to correspond to the feeding port, and under the condition that the packaging film at the blanking port is torn by the film tearing component, materials in the material box fall into the pot body structure from the blanking port, the feeding port and the blanking port in sequence.

In certain embodiments, the tear film structure further comprises a cartridge withdrawal assembly. And under the condition that the pushing box assembly moves to the limit position along the first direction, the box withdrawing assembly is used for pushing the material box to move along the second direction so as to withdraw from the accommodating space, and the first direction is opposite to the second direction.

In some embodiments, the cooking apparatus further comprises a cartridge recycling structure detachably mounted to the carrier, the cartridge recycling structure being for collecting the cartridges moving in the second direction to exit the accommodating space.

In certain embodiments, the cooking apparatus further comprises a temporary blanking structure. In the direction of height of the bearing structure, the temporary storage blanking structure is arranged at the top of the dyestripping structure and is used for storing the material box and throwing the material box into the accommodating space.

In certain embodiments, the carrier, the support, and the brace together enclose a cooking space; the pot body assembly can move relative to the support piece in the cooking space to be far away from or close to the bearing piece; the stirring assembly stretches into the pot body assembly and is used for stirring materials in the pot body assembly under the condition that the pot body assembly moves to a first position along a third direction relative to the supporting piece; under the condition that the pot body assembly moves to a second position along a fourth direction relative to the supporting piece, the pot body assembly is separated from the stirring assembly and can turn over relative to the supporting piece, the second position is lower than the first position compared with the bearing piece, and the third direction is different from the fourth direction.

In certain embodiments, the cooking apparatus further comprises a racking structure. The split charging structure is loaded on the bearing piece, and under the condition that the pot body assembly is turned towards one side away from the supporting piece relative to the supporting piece, the pot body assembly can pour cooked dishes into the split charging structure, and the split charging structure is used for split charging the dishes.

In some embodiments, the support is provided with a guide extending in the third or fourth direction. The pan body structure further comprises a mounting frame, the mounting frame comprises a first end and a second end which are opposite to each other, the first end of the mounting frame is movably arranged on the guide piece, and the pan body assembly is arranged on the second end of the mounting frame.

In certain embodiments, the cooking apparatus further comprises a movement drive assembly. The movable driving assembly is installed on the supporting piece and connected with the installation frame, and the movable driving assembly is used for driving the first end of the installation frame to move along the guide piece so as to drive the pot body assembly to move along the guide piece.

In certain embodiments, the pan body structure further comprises a flip drive assembly. The overturning driving assembly is arranged at the second end of the mounting frame and connected with the pot body assembly, and the overturning driving assembly is used for driving the pot body assembly to overturn relative to the mounting frame. The overturning driving assembly is used for driving the pot body assembly to overturn towards one side away from the supporting piece relative to the mounting frame under the condition that the pot body assembly moves to a second position along the guide piece; the overturning driving assembly is used for driving the pot body assembly to overturn towards one side facing the supporting piece relative to the supporting piece under the condition that the pot body assembly moves to a third position along the guiding piece.

In some embodiments, the tumble drive assembly includes a power member and a transmission member. The transmission part is connected with the power part and the pot body assembly, and the transmission part is used for transmitting the driving force of the power part to the pot body assembly.

In some embodiments, the overturning driving assembly further comprises a detecting member, wherein the detecting member is arranged on at least one of the transmission part, the mounting frame and the pan body assembly, and the detecting member is used for detecting an overturning angle of the pan body assembly relative to the mounting frame.

In certain embodiments, the stirring assembly includes a mount, a stirring member, and an actuating member. The mounting seat is mounted on the bearing piece; the stirring component is arranged on the mounting seat, and extends into the pot body component under the condition that the pot body component moves along a third direction relative to the supporting piece; the actuating component is arranged on the mounting seat and connected with the stirring component, and the actuating component is used for driving the stirring component to rotate so as to stir the materials in the pot body component.

In certain embodiments, the cooking apparatus further comprises a feeding structure mounted within the carrying structure for feeding into the pan body assembly; the feeding structure comprises a storage component and a discharging component which are arranged on the bearing piece. The storage assembly comprises a plurality of storage pieces for storing materials; the discharging component is connected with the storage piece and is used for extracting materials in the storage piece to the pot body component.

In certain embodiments, the discharge assembly includes a discharge line and a suction pump. One end of the discharging pipeline is communicated with the storage part, and the other end of the discharging pipeline is exposed from one side of the bearing part, which faces the support part, and is opposite to the pot body assembly; the extracting pump is arranged on the discharging pipeline and is used for extracting materials in the storage piece.

In certain embodiments, the cooking apparatus further comprises a collection structure disposed in the carrier, the collection structure for collecting the material that the pot assembly falls off while cooking.

In some embodiments, the carrier is further configured to carry the collecting structure, a receiving groove is disposed on a side of the carrier facing the collecting structure, the collecting structure is partially disposed in the receiving groove and divides the receiving groove into a first subchamber and a second subchamber, the first subchamber is further away from a bottom of the receiving groove than the second subchamber, the first subchamber is configured to collect solid materials in the materials that fall off when the pot structure is cooking, and the second subchamber is configured to collect liquid materials in the materials that fall off when the pot structure is cooking.

In some embodiments, the depth of the receiving groove gradually decreases in a direction from a side of the carrier where the support is located to an opposite side of the carrier from the support.

In some embodiments, a through hole is formed at the bottom of the accommodating groove, and the through hole is used for flowing out the liquid material collected in the second subchamber.

In some embodiments, the collection structure comprises a bottom wall and a peripheral wall extending from a periphery of the bottom wall in a direction away from the carrier; the bottom wall of the collecting structure is provided with a plurality of through holes, the first subchamber is communicated with the second subchamber through the through holes, the through holes are used for allowing liquid materials in the first subchamber to flow into the second subchamber and not allowing solid materials in the first subchamber to pass through so as to block the solid materials in the first subchamber, and the peripheral wall of the collecting structure is connected with the bearing piece.

In certain embodiments, the collection structure further comprises a grip member disposed on the peripheral wall for gripping by a user to move the collection structure.

In some embodiments, an air hole is formed in one side, facing the pot body assembly, of the supporting piece, a through blanking hole is further formed in the supporting piece, the blanking hole corresponds to and is communicated with the air hole, the stirring assembly is installed in the air hole, and the pot body assembly is opposite to the air hole when the pot body assembly is in the first position; the cooking equipment further comprises a smoke exhausting structure, the smoke exhausting structure is arranged on the supporting piece and communicated with the air holes, and the smoke exhausting structure is used for exhausting the oil smoke generated by the pot body structure during cooking.

In certain embodiments, the smoke evacuation structure comprises a base, a smoke evacuation member, and a suction member. The base is arranged in the supporting piece and is provided with a communicated perforation and a communication hole, the perforation is communicated with the air hole, and the perforation corresponds to and is communicated with the blanking opening; the smoke discharging piece is arranged on the base and is provided with a through smoke discharging channel, the smoke discharging channel comprises a first end and a second end, the first end of the smoke discharging channel is communicated with the communication hole, and the second end of the smoke discharging channel is communicated with the outside atmosphere; the suction piece is arranged in the smoke exhaust channel and is used for sucking the lampblack.

In some embodiments, the base includes a top wall and a side wall extending from the top wall toward the support, the base and the support together form an exhaust space, the communication hole is formed in the side wall of the base, and when the suction member sucks, the oil smoke is discharged to the outside through the perforation, the communication hole, the exhaust space and the smoke discharge channel in sequence.

In some embodiments, the smoke exhaust structure further includes a blocking member covering the communication hole, and the blocking member is provided with a plurality of through holes, and the through holes are used for allowing the smoke to enter the exhaust space.

In some embodiments, the smoke exhaust structure further comprises a guide member disposed in the exhaust space, one end of the guide member is connected to the support member, the other end is connected to the smoke exhaust member, and the guide member is used for guiding the smoke to enter the smoke exhaust passage.

In some embodiments, the smoke evacuation structure further comprises an oil storage member, the oil storage member is mounted on one side of the support member facing the pan body assembly, the oil storage member is communicated with the exhaust space, and the oil storage member is used for storing oil stains.

In some embodiments, the cooking apparatus further comprises an electrical control structure disposed on the carrying structure, the electrical control structure being configured to control operation of the cooking apparatus.

In the cooking equipment of the embodiment of the application, the plurality of pot body structures are arranged on the bearing structure and correspond to the plurality of film tearing structures respectively, and the pot body structures can receive the materials released by the film tearing structures and cook the materials, so that the cooking equipment can cook a plurality of different dishes at the same time, and the cooking efficiency of the cooking equipment is improved.

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

Drawings

The foregoing 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, in which:

fig. 1 is a schematic perspective view of a cooking apparatus according to some embodiments of the present application;

FIG. 2 is a schematic perspective view of a cartridge according to certain embodiments of the present application;

FIG. 3 is a schematic perspective view of a tear film feature and a cartridge in the cooking apparatus of FIG. 1;

fig. 4 is a perspective view schematically showing another view of a part of the structure of the cooking apparatus shown in fig. 1;

FIG. 5 is an exploded perspective view of the racking structure, storage element and limiter of the cooking apparatus of FIG. 1;

fig. 6 is a schematic perspective view of a part of the structure of the cooking apparatus shown in fig. 1;

fig. 7 is an exploded perspective view of the tumble drive assembly of the cooking apparatus of fig. 1;

FIG. 8 is an exploded perspective view of the stirring assembly of the cooking apparatus of FIG. 1;

fig. 9 is a schematic perspective view of a part of the structure of the cooking apparatus shown in fig. 1;

fig. 10 is an exploded perspective view of the cooking apparatus shown in fig. 1;

fig. 11 is a schematic sectional structure of the cooking apparatus shown in fig. 1;

fig. 12 is an exploded perspective view of a part of the structure of the cooking apparatus shown in fig. 1;

Fig. 13 is a schematic sectional structure of the cooking apparatus shown in fig. 12.

Description of main reference numerals:

a cooking apparatus 100; a memory element 200; cartridge 300, cartridge body 310, storage cavity 3101, blanking port 3103, and packaging film 320;

the cooking device comprises a bearing structure 10, a cooking space 110, a bearing piece 11, a limiting piece 111, a limiting space 1111, a storage cavity 113, a containing groove 115, a first subchamber 1151, a second subchamber 1153, a bottom 1155, a through hole 1157, a supporting piece 13, a first end 131, a second end 133, a first end 12, a second end 14, a guide piece 135, a bearing piece 15, a blanking opening 151 and an air hole 153;

the film tearing structure 20, the bearing component 21, the accommodating space 211, the feed opening 213, the box pushing component 23, the film tearing component 25 and the box withdrawing component 27;

the pot body structure 30, the pot body assembly 31, the pot body 311, the heating part 313, the stirring assembly 33, the mounting seat 331, the stirring part 333, the first stirring piece 3331, the first stirring rod 3332, the first sub-rod 33321, the second sub-rod 33323, the first stirring shovel 3333, the second stirring piece 3334, the second stirring rod 3335, the third sub-rod 33351, the fourth sub-rod 33353, the second stirring shovel 3336, the connecting frame 3337, the actuating part 335, the driving motor 3351, the transmitting unit 3353, the planetary transmission part 337, the mounting frame 35, the first end 351, the second end 353, the overturning driving assembly 37, the power piece 371, the transmission part 373 and the detecting part 375;

Temporary storage blanking structure 40, shell 41, adjusting piece 43 and connecting groove 431;

a sub-assembly structure 50, a body 51, a bottom wall 511, a through hole 5111, a side wall 513, a receiving chamber 515, a subchamber 5151, and a blocking member 53;

a moving drive assembly 60, a drive 61, a transmission unit 63, a drag chain 65, a first end 651, a second end 653;

the feeding structure 70, the storage component 71, the storage component 711, the discharging component 73, the discharging pipeline 731 and the extracting pump 733;

a collecting structure 80, a bottom wall 81, a flow hole 811, a peripheral wall 83, and a grip 85;

the smoke discharging structure 90, the base 91, the air discharging space 910, the perforated hole 911, the communication hole 913, the top wall 915, the side wall 917, the smoke discharging member 93, the smoke discharging passage 931, the first end 9311, the second end 9313, the suction member 95, the blocking member 97, the through hole 971, the guide member 98, the oil storage member 99;

cartridge retrieving structure 101, body member 1011, bottom wall 10111, side wall 10113, retrieving cavity 10115, drawer 1013;

an electrical control structure 103, a display 1031, and a control assembly 1033.

Detailed Description

In order that the above objects, features and advantages of the application will be readily understood, a more particular description of the application will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. The present application may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the application, whereby the application is not limited to the specific embodiments disclosed below.

In the description of the present application, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1 and 2, a cooking apparatus 100 according to some embodiments of the present application includes a carrying structure 10, a plurality of film tearing structures 20 and a plurality of pot structures 30. The tear film structure 20 is mounted on top of the carrier structure 10 in the height direction of the carrier structure 10, the tear film structure 20 being used to tear the encapsulation film 320 on the cartridge 300 to release the material in the cartridge 300. The plurality of pot body structures 30 are installed on the bearing structure 10 and respectively correspond to the plurality of film tearing structures 20, and the pot body structures 30 are used for receiving materials released by the film tearing structures 20 and cooking the materials.

In certain embodiments, the load bearing structure 10 includes oppositely disposed first and second ends 12, 14. The height direction of the load bearing structure 10 may be the direction from the first end 12 of the load bearing structure to the second end 14 of the load bearing structure; or the direction of the second end 14 of the load bearing structure to the first end 12 of the load bearing structure. The plurality of pot structures 30 may be disposed between the first end 12 of the carrier structure and the second end 14 of the carrier structure, so that the pot structures 30 are convenient for receiving the material released by the film tearing structure 20. In addition, compared with the film tearing structure 20 and the pot body structure 30 arranged in the same plane perpendicular to the height direction of the bearing structure 10, the film tearing structure 20 is mounted on the top of the bearing structure 10, so that the space occupied by the film tearing structure 20 and the bearing structure 10 can be reduced, and the miniaturization of the cooking apparatus 100 is realized.

In certain embodiments, the cartridge 300 may comprise a cartridge body 310. The box body 310 is provided with at least one storage cavity 3101 and a blanking port 3103 communicated with the storage cavity 3101, the storage cavity 3101 is used for storing materials, and the materials can enter the storage cavity 3101 through the blanking port 3103 and can fall from the storage cavity 3101 through the blanking port 3103. Wherein, the number relationship between the storage cavities 3101 and the blanking ports 3103 may be one-to-one, that is, in the case that the number of the storage cavities 3101 is one, the number of the blanking ports 3103 is one; when the number of the storage chambers 3101 is plural, the number of the discharge ports 3103 is plural. It should be noted that in some embodiments, the material of the case 310 includes, but is not limited to, metal, plastic, or silica gel.

Further, the cartridge 300 may further include an encapsulation film 320. The encapsulation film 320 can seal all of the blanking ports 3103 to seal material within the storage cavity 3101, thereby preventing leakage of material within the storage cavity 3101 when the cartridge 300 is stored. The tear film structure 20 is capable of tearing the encapsulation film 320 from the cartridge 300 to expose a portion of the storage cavities 3101 from which material can fall out of the corresponding storage cavities 3101. It should be noted that in some embodiments, the material of the encapsulation film 320 includes, but is not limited to, polyhydroxyalkanoate, polyethylene, polyvinyl chloride, polypropylene, or the like. Wherein the material can be a liquid material or a solid material. The liquid material may include one or more of water, edible oil, vinegar, or water starch, without limitation. The solid material may be one or more of salt, vegetables or meats, etc., without limitation. The pot structure 30 is capable of processing the material released by the tear film structure 20 to achieve cooking of the dishes.

In the cooking apparatus 100 according to the embodiment of the present application, the plurality of pot structures 30 are mounted on the carrying structure 10 and correspond to the plurality of film tearing structures 20, and the pot structures 30 can receive the material released by the film tearing structures 20 and cook the material, so that the cooking apparatus 100 can cook a plurality of different dishes at the same time, and the cooking efficiency of the cooking apparatus 100 is improved.

The cooking apparatus 100 is further explained below with reference to the accompanying drawings.

Referring to fig. 1, in some embodiments, the cooking apparatus 100 may further include a temporary storage blanking structure 40, a sub-packaging structure 50, a moving driving assembly 60, a feeding structure 70, a collecting structure 80, a smoke exhausting structure 90, and an electric control structure 103. The temporary storage blanking structure 40, the sub-packaging structure 50, the moving driving assembly 60, the feeding structure 70, the collecting structure 80, the smoke exhausting structure 90 and the electric control structure 103 are all arranged on the bearing structure 10. The temporary storage blanking structure 40 is used for storing the material box 300 and throwing the material box 300 into the film tearing structure 20. The split charging structure 50 is used for split charging the cooked dishes of the pot body structure 30. The movement driving assembly 60 is used for driving the pan body structure 30 to move relative to the carrying structure 10. The feeding structure 70 is used for feeding material into the pot assembly 31. The collection structure 80 is used to collect material that the pan body structure 30 falls off during cooking. The smoke evacuation structure 90 is used for evacuating the smoke generated by the pot structure 30 during cooking. The electronic control structure 103 is used to control the operation of the pan body structure 30.

With continued reference to fig. 1, in some embodiments, the pan structure 30 may include a pan assembly 31 and a stirring assembly 33. Wherein, the pan body assembly 31 is used for accommodating materials and can heat the materials. The stirring assembly 33 can extend into the pan body assembly 31 to stir the material in the pan body assembly 31. Specifically, the carrying structure 10 may include a carrying member 11, a supporting member 13 disposed on the carrying member 11, and a supporting member 15 disposed on the supporting member 13. The pan body assembly 31 is movably mounted to the support member 13 and is movable away from or toward the carrier member 11. Opposite the support 15 to the carrier 11, a stirring assembly 33 is mounted to the side of the support 15 facing the carrier 11.

More specifically, in some embodiments, the carrier 11 may be a platform structure, and the surface of the platform structure may be at least one of a regular plane, a curved surface, and a folded surface. In the case of a carrier 11 placed on the ground, the support 13 is arranged on the side of the carrier 11 facing away from the ground. The supporting piece 13 and the bearing piece 11 can be integrally formed; or the supporting member 13 may be non-detachably or detachably mounted to the carrier 11 by means of a connection such as welding or screw connection. The supporting member 13 may include a first end 131 and a second end 133 opposite to each other, where the first end 131 of the supporting member is connected to the carrier 11, and the supporting member 15 may be disposed at the second end 133 of the supporting member, or may be disposed at any position between the first end 131 of the supporting member and the second end 133 of the supporting member. In some embodiments, the projection of the support 15 in the height direction of the carrying structure 10 is located on the carrying member 11, whereby the carrying structure 10 occupies less space in the height direction perpendicular to the carrying structure 10 than the projection of the support 15 in the height direction of the carrying structure 10 is located outside the carrying member 11, thereby enabling miniaturization of the cooking apparatus 100.

Referring to fig. 1-3, in some embodiments, the tear film structure 20 may include a support assembly 21, a push box assembly 23, and a tear film assembly 25. The support member 21 is mounted on the support 15 and provided with a receiving space 211 for receiving the cartridge 300, the cartridge 300 being movable in the receiving space 211 along a first direction X1, the support member 21 being provided with a through feed opening 213, the feed opening 213 being located in the path of movement of the cartridge 300. At least a portion of the pushing assembly 23 extends into the accommodating space 211, and the pushing assembly 23 is configured to push the cartridge 300 to move in the accommodating space 211 along the first direction X1. The dyestripping subassembly 25 sets up in bearing subassembly 21, and dyestripping subassembly 25 is used for carrying out the dyestripping operation to magazine 300, pushes away the box subassembly 23 and promotes the magazine 300 and make arbitrary blanking mouth 3103 on it correspond with the dog-house 213 and the packaging film 320 of this blanking mouth 3103 department tear by dyestripping subassembly 25 under the condition, the material in the magazine 300 falls out from blanking mouth 3103 and dog-house 213 in proper order.

In some embodiments, the support assembly 21 may include opposite first and second ends 215, 217, and the feed opening 213 may be located between the first end 215 of the support assembly and the second end 217 of the support assembly, and the first direction X1 may be the direction from the first end 215 of the support assembly to the second end 217 of the support assembly. During feeding of the cartridge 300, the pushing assembly 23 can push the cartridge 300 along the direction from the first end 215 of the support member to the second end 217 of the support member, so that the cartridge 300 moves to the position of the feeding port 213 along the direction from the first end 215 of the support member to the second end 217 of the support member, and the film tearing assembly 25 can tear the cartridge 300, so that the materials in the cartridge 300 can drop out from the blanking port 3103 and the feeding port 213 in sequence, and further the cooking apparatus 100 is automated. The movement path of the cartridge 300 may be limited to the accommodating space 211, or may extend from the accommodating space 211 to the outside of the accommodating space 211, for example, when the cartridge 300 protrudes out of the supporting member 21, the movement path also includes the space where the cartridge 300 protrudes out of the supporting member 21.

Further, referring to fig. 4, in some embodiments, the supporting member 15 is provided with a feed opening 151, and when the pushing assembly 23 pushes the cartridge 300 such that any one of the feed openings 3103 corresponds to the feed opening 213 and the packaging film 320 at the feed opening 3103 is torn by the film tearing assembly 25, the materials in the cartridge 300 fall into the pot structure 30 from the feed opening 3103, the feed opening 213 and the feed opening 151 in sequence.

Specifically, in some embodiments, the blanking port 151 extends through the support 15, such that, when the pushing assembly 23 pushes the cartridge 300 such that any blanking port 3103 thereon corresponds to the feeding port 213, and the packaging film 320 at the blanking port 3103 is torn by the film tearing assembly 25, the material in the cartridge 300 falls into the pot assembly 31 from the blanking port 3103, the feeding port 213, and the blanking port 151 in sequence. After the material falls into the pan body assembly 31, the stirring assembly 33 can stir the material in the pan body assembly 31 to achieve cooking of dishes.

If the cartridge 300 moves along the first direction X1 in the accommodating space 211 and the cartridge 300 does not exit the accommodating space 211 after the feeding is completed, the fed cartridge 300 may obstruct the new cartridge 300 from entering the accommodating space 211, thereby affecting the processing of dishes by the cooking apparatus 100. Thus, referring to fig. 1 and 3, in an embodiment of the present application, the film tearing structure 20 may further include a box withdrawing component 27. In the case that the pushing assembly 23 moves to the limit position along the first direction X1, the ejecting assembly 27 is configured to push the cartridge 300 to move along the second direction X2 to eject the accommodating space 211, and the first direction X1 is opposite to the second direction X2. Therefore, the material box 300 can be withdrawn in time after the material feeding is completed, and the new material box 300 is prevented from being blocked from entering the accommodating space 211.

The second direction X2 may be the direction from the second end 217 of the support member to the first end 215 of the support member, i.e. the ejection assembly 27 is capable of pushing the cartridge 300 to eject the receiving space 211 in the direction from the second end 217 of the support member to the first end 215 of the support member, thereby allowing the empty cartridge 300 to be retrieved. Specifically, in some embodiments, the retraction assembly 27 is positioned between the cartridge 300 and the second end 217 of the support assembly, the retraction assembly 27 spans the receiving space 211, the extension direction of the retraction assembly 27 intersects the first direction X1, and the height of the retraction assembly 27 relative to the support 15 is lower than the height of the top of the cartridge 300 relative to the support 15 such that the retraction assembly 27 is able to contact the cartridge 300 when moved in the second direction X2. Therefore, when the cartridge 300 finishes feeding, the cartridge withdrawing assembly 27 moves along the second direction X2 and contacts the cartridge 300, thereby pushing the cartridge 300 to move along the second direction X2 and thus completing withdrawing of the cartridge 300.

Referring to fig. 1 and 3, in some embodiments, the cooking apparatus 100 may further include a cartridge recycling structure 101, where the cartridge recycling structure 101 is detachably mounted on the carrier 11, and the cartridge recycling structure 101 is used for collecting the cartridges 300 moving along the second direction X2 to exit the accommodating space 211.

Specifically, referring to fig. 11, in some embodiments, the cartridge recycling structure 101 may include a main body 1011 and a drawer 1013. The main body 1011 includes a bottom wall 10111 and a side wall 10113 extending from the bottom wall 10000 toward the supporting member 15, the bottom wall 10111 of the main body and the side wall 10113 of the main body jointly enclose a recycling cavity 10115, and an opening of the recycling cavity 10115 faces toward the supporting member 15. The drawer 1013 is disposed on the sidewall 10113 of the main body, and the drawer 1013 is used for being held by a user to take out or install the cartridge recycling structure 101 in the carrier 11. Wherein, in the case where the cartridge 300 is pushed by the cartridge withdrawal assembly 27 to move in the second direction X2 so as to withdraw from the accommodating space 211, the cartridge 300 can fall into the recovery chamber 10115 through the opening of the recovery chamber 10115, thereby completing the recovery of the cartridge 300.

Referring to fig. 1, in some embodiments, a temporary storage blanking structure 40 is disposed on top of the tear film structure 20 along the height direction of the carrying structure 10. Specifically, in some embodiments, the temporary storage blanking structure 40 is detachably connected to the tear film structure 20 and located above the tear film structure 20 in the height direction of the carrier structure 10. The temporary storage blanking structure 40 may include a housing 41 and an adjusting member 43, where the adjusting member 43 is connected to the film tearing structure 20 and the housing 41, and is located between the film tearing structure 20 and the housing 41. The adjusting member 43 is provided with a connecting groove 431 along the height direction of the carrying structure 10, and the housing 41 can be connected to different positions of the connecting groove 431, so that the position of the temporary storage blanking structure 40 in the height direction of the carrying structure 10 can be adjusted. The setting of adjusting part 43 can realize the position adjustment of temporarily storing blanking structure 40 in the direction of height of bearing structure 10 to make temporarily storing blanking structure 40 not only can adapt to operating personnel's height, convenient operation can also be convenient for temporarily storing blanking structure 40 and other device's cooperation.

Please refer to fig. 2, when the cooking device 100 needs materials to cook, the temporary storage blanking structure 40 is started to drop the corresponding material box 300 onto the film tearing structure 20, and the film tearing structure 20 tears the packaging film 320 on the material box 300, so that the materials in the material box 300 are put into the pot body structure 30, and the pot body structure 30 can complete cooking by using the materials, so as to achieve the automatic cooking effect of the cooking device 100.

Referring to fig. 1, in some embodiments, the carrier 11, the supporting member 13, and the supporting member 15 together define a cooking space 110. Specifically, in some embodiments, the supporting member 13 may be disposed on one side edge of the supporting member 11, and the supporting member 15 is disposed at the second end 133 of the supporting member, or the supporting member 15 is disposed at any position between the first end 131 of the supporting member and the second end 133 of the supporting member, so that the supporting member 11, the supporting member 13 and the supporting member 15 can jointly enclose the cooking space 110.

The pot assembly 31 is movable along the support 13 within the cooking space 110 to be away from or close to the carrier 11. In the case that the pot assembly 31 is moved to the first position in the third direction X3 within the cooking space 110 with respect to the support 13, the stirring assembly 33 is extended into the pot assembly 31 and serves to stir the material in the pot assembly 31; in the case that the pot assembly 31 is moved to the second position with respect to the support 13 in the fourth direction X4, the pot assembly 31 is separated from the stirring assembly 33 and can be turned over with respect to the support 13.

With the pan body assembly 31 moved to the first position in the third direction X3 relative to the support member 13, the stirring assembly 33 extends into the pan body assembly 31 and stirs the material in the pan body assembly 31. In some embodiments, the first position may be a position where the stirring assembly 33 extends into the pan body assembly 31 and contacts the interior of the pan body assembly 31. With the pan body assembly 31 moved to the second position relative to the support 13 in the fourth direction X4, the pan body assembly 31 is separated from the stirring assembly 33, at which time the pan body assembly 31 can be flipped relative to the support 13 to pour out objects in the pan body assembly 31 (e.g., cooked dishes or sewage after washing the pan body assembly 31, etc.). In some embodiments, the second position may be a position where the stirring assembly 33 is remote from the pan body assembly 31 and does not interfere with the stirring assembly 33 when the pan body assembly 31 is flipped relative to the support 13. It should be noted that, in some embodiments, the second position is lower than the first position compared to the carrier 11, so as to prevent interference with the stirring assembly 33 when the pan body assembly 31 is turned over, and ensure that the pan body assembly 31 is turned over normally. Wherein both the first position and the second position are located in the cooking space 110.

Further, in some embodiments, with the pot assembly 31 moved to the second position along the support 13, the pot assembly 31 is separated from the stirring assembly 33, and the pot assembly 31 can be flipped relative to the support 13 toward a side facing away from the support 13. In case that the pot assembly 31 is moved to the third position along the support 13, the pot assembly 31 is separated from the stirring assembly 33, and the pot assembly 31 can be turned toward the side facing the support 13 with respect to the support 13.

The third direction X3 may be a direction from the first end 12 of the bearing structure to the second end 14 of the bearing structure. The pan body assembly 31 is moved on the carrying structure 10 in a third direction X3, i.e. the pan body assembly 31 is moved relative to the carrying structure 10 in a direction from the first end 12 of the carrying structure to the second end 14 of the carrying structure such that the stirring assembly 33 extends into the pan body assembly 31. The fourth direction X4 may be the direction from the second end 14 of the load bearing structure to the first end 12 of the load bearing structure. The pan body assembly 31 is moved on the carrying structure 10 in the fourth direction X4, i.e. the pan body assembly 31 is moved relative to the carrying structure 10 in the direction from the second end 14 of the carrying structure to the first end 12 of the carrying structure, such that the stirring assembly 33 is moved away from the pan body assembly 31.

Specifically, in the case that the pot assembly 31 is moved to the second position with respect to the support 13 in the fourth direction X4, the pot assembly 31 can be turned toward a side facing away from the support 13 with respect to the support 13 to pour out objects in the pot assembly 31 (e.g., cooked dishes or sewage remaining after washing the pot assembly 31, etc.). In the case that the pot assembly 31 is moved to the third position with respect to the support 13 in the fourth direction X4, the pot assembly 31 can be turned over with respect to the support 13 toward the side facing the support 13 to pour out the objects in the pot assembly 31 (e.g., sewage remaining after washing the pot assembly 31 or cooked dishes, etc.). It should be noted that, in some embodiments, the third position is lower than the first position compared to the carrier 11, so that the stirring assembly 33 can be away from the pan body assembly 31, and interference with the stirring assembly 33 when the pan body assembly 31 is turned over is prevented.

In some embodiments, the opposite side of the carrier 11 from the support 13 is the user side. Therefore, if the cooked dishes in the pan body assembly 31 are poured out with the pan body assembly 31 turned towards the side facing the support 13 relative to the support 13, the user will be interfered by the pan body assembly 31 when taking the dishes, which affects the meal output efficiency of the dishes. If the sewage remaining after the cleaning of the pot assembly 31 in the pot assembly 31 is poured out in a state that the pot assembly 31 is turned toward a side facing away from the support 13 with respect to the support 13, the sewage is easily poured out of the cooking apparatus 100. Therefore, in the embodiment of the application, when the pan body assembly 31 is turned towards the side away from the support member 13 relative to the support member 13, the cooked dishes in the pan body assembly 31 can be poured out, and compared with pouring out the cooked dishes when the pan body assembly 31 is turned towards the side facing to the support member 13 relative to the support member 13, the interference of the pan body assembly 31 when the dishes are taken by a user can be avoided, so that the dishes are conveniently taken out; under the condition that the pot body assembly 31 is turned towards the side facing the supporting piece 13 relative to the supporting piece 13, residual sewage after the pot body assembly 31 is cleaned in the pot body assembly 31 can be poured out, and compared with the process that the sewage after the pot body assembly 31 is poured out when the pot body assembly 31 is turned towards the side facing away from the supporting piece 13 relative to the supporting piece 13, the sewage can be reduced or even prevented from being poured out of the cooking equipment 100.

In some embodiments, the third position is the same as the second position, i.e., in the event that the pan body assembly 31 is moved to the second position in the fourth direction X4 relative to the support 13, the pan body assembly 31 can be flipped relative to the support 13 towards the side facing away from the support 13, and can also be flipped relative to the support 13 towards the side facing towards the support 13 to pour out the objects in the pan body assembly 31; or in case the pan body assembly 31 is moved to the third position in the fourth direction X4 with respect to the support 13, the pan body assembly 31 can be flipped with respect to the support 13 towards the side facing away from the support 13, and can also be flipped with respect to the support 13 towards the side facing towards the support 13, in order to pour out the objects in the pan body assembly 31.

In other embodiments, the third position is different from the second position (e.g., the third position may be higher than the second position; or the third position may be lower than the second position). For example, if the pan body assembly 31 is moved to the second position relative to the support 13 in the fourth direction X4, the pan body assembly 31 is flipped relative to the support 13 to pour out the dishes; under the condition that the pan body assembly 31 moves to the third position along the fourth direction X4 relative to the supporting member 13, the pan body assembly 31 turns over relative to the supporting member 13 to pour out the sewage, and along the third direction X3, compared with the distance between the pan body assembly 31 and the collecting structure 80 for collecting the sewage, the distance between the pan body assembly 31 and the sub-packaging structure 50 is relatively close, and then, compared with the bearing member 11, the second position can be higher than the third position, therefore, the pan body assembly 31 can pour out the dishes without moving to the third position, and therefore, the dish meal-out efficiency can be improved. In addition, the third position is closer to the collecting structure 80 than the second position, so that the problem of sputtering when sewage is poured out can be reduced, and the cleaning of the cooking apparatus 100 is ensured.

Referring to fig. 1, in some embodiments, the split charging structure 50 is carried on the carrying member 11, and when the pan body assembly 31 is turned towards the opposite side of the supporting member 13, the pan body assembly 31 can pour the cooked dishes into the split charging structure 50, so that the split charging structure 50 can split the dishes.

Specifically, referring to fig. 5, in some embodiments, the dispensing structure 50 may include a body 51 and a blocking member 53. The body 51 includes a bottom wall 511 and a side wall 513 extending from a periphery of the bottom wall 511, the bottom wall 511 and the side wall 513 together define a containing cavity 515, the containing cavity 515 is used for storing dishes, and the bottom wall 511 is provided with a through hole 5111. The blocking member 53 is disposed in the accommodating cavity 515, the blocking member 53 is used for dividing the accommodating cavity 515 into at least two subchambers 5151, a part of the subchambers 5151 is communicated with the through hole 5111, and the through hole 5111 is used for releasing dishes in the subchambers 5151 into the storage element 200. Thereby, the sub-packaging structure 50 can realize sub-packaging of dishes, prevent excessive dishes in the single storage element 200, and thereby ensure the meal-out effect.

Storage element 200 includes, but is not limited to, dishes, cutlery, boxes, and the like. When the dishes are poured into the racking structure 50, part of the dishes can be released from the sub-chamber 5151 to the storage element 200 through the through-hole 5111, and dishes in the sub-chamber 5151, which are not communicated with the through-hole 5111, can be poured into another storage element 200 by an external device (not shown) or manually, thereby finishing the racking of the dishes.

In some embodiments, the storage element 200 may be part of the racking structure 50. Specifically, when the pot assembly 31 is turned over to pour the cooked dishes into the sub-chamber 5151 into the storage element 200 through the through-hole 5111, after the dishes in the pot assembly 31 are completely poured out, the dishes in the storage element 200 can be poured into other storage elements 200 by an external device or manually, and the dishes in the sub-chamber 5151 which are not communicated with the through-hole 5111 are poured into another storage element 200, thereby completing the sub-packaging of the dishes.

In some embodiments, a baffle 53 may be provided on the bottom wall 511 and connected to the side wall 513 to divide the containment chamber 515 into at least two subchambers 5151. In one embodiment, if the number of barriers 53 is one, the barriers 53 may divide the accommodating chamber 515 into two subchambers 5151. At this time, the through hole 5111 is correspondingly communicated with one of the two subchambers 5151, and when the dishes are poured into the sub-packaging structure 50, part of the dishes can be released from the subchambers 5151 into one storage element 200 through the through hole 5111; the dishes in the other sub-chamber 5151 can be poured into the other storage element 200 by an external device or manually. In another embodiment, if the number of barriers 53 is two, two barriers 53 may divide the accommodating chamber 515 into three sub-chambers 5151. At this time, the through hole 5111 may communicate with one of the three subchambers 5151, or the through hole 5111 may communicate with two of the three subchambers 5151. Wherein, in case that the through hole 5111 can be communicated with two of the three subchambers 5151, it may be that the through hole 5111 is communicated with two adjacent subchambers 5151, or that the through hole 5111 is communicated with two spaced subchambers 5151, whereby, in case that the dishes are poured into the sub-packaging structure 50, part of the dishes can be released from the subchambers 5151 into the same storage element 200 through the through hole 5111; the dishes in the subchamber 5151 which are not communicated with the through-hole 5111 can be poured into another storage element 200 by an external device or manually. It will be appreciated that in the case where the through-hole 5111 is communicable with two of the three sub-chambers 5151, when a dish is poured into the racking structure 50, a part of the dish can also be released from the two sub-chambers 5151 into the two different storage elements 200, respectively, through the through-hole 5111.

If the storage element 200 is not restrained, the storage element 200 may be displaced when the pan assembly 31 pours dishes into the storage element 200 through the racking structure 50, resulting in a spill of dishes. Thus, in some embodiments, the carrier 11 may be provided with a limiting member 111, where the limiting member 111 is used to carry the storage element 200, and the sub-packaging structure 50 is disposed on a side of the storage element 200 facing away from the carrier 11. The limiting piece 111 is provided with a limiting space 1111, and the limiting space 1111 is used for limiting the storage element 200, so that dishes can be prevented from being scattered due to displacement of the storage element 200 when the dishes are poured into the storage element 200 through the split charging structure 50 by the pot body assembly 31, and the split charging structure 50 is ensured to split the dishes.

Referring to fig. 1 and 6, in some embodiments, the support 13 is provided with a guide 135 extending along the third direction X3 or the fourth direction X4. The pan body structure 30 may further include a mounting bracket 35, the mounting bracket 35 including opposite first and second ends 351, 353, the first end 351 of the mounting bracket being movably mounted to the guide 135, and the pan body assembly 31 being mounted to the second end 353 of the mounting bracket.

Specifically, in some embodiments, the first end 351 of the mounting frame may be mounted to the guide 135 by a connection such as a snap connection or a socket connection, and the mounting frame 35 can move along the third direction X3 or the fourth direction X4 relative to the guide 135. The guide member 135 can provide a guiding function for the movement of the mounting frame 35 along the third direction X3 or the fourth direction X4, prevent the movement of the mounting frame 35 from shifting, and improve the stability of the movement of the pot body assembly 31 relative to the guide member 135.

In some embodiments, the mounting frame 35 may include a first mounting arm and a second mounting arm, each of which is movably mounted to the guide 135, and the first and second mounting arms may cooperate to clamp the pan body assembly 31 so as to promote stability of movement of the pan body assembly 31 relative to the guide 135. In other embodiments, the mounting bracket 35 includes only one mounting arm, one end of which is movably mounted to the guide member 135 and the other end of which is coupled to the pot assembly 31 such that the pot assembly 31 moves with the mounting bracket 35 in the third direction X3 or the fourth direction X4 when the mounting bracket 35 moves in the third direction X3 or the fourth direction X4 relative to the guide member 135.

In some embodiments, the moving driving assembly 60 is mounted on the supporting member 13 and connected to the mounting frame 35, and the moving driving assembly 60 is used for driving the first end 351 of the mounting frame to move along the guiding member 135 so as to drive the pan body assembly 31 to move along the guiding member 135.

Specifically, in some embodiments, the movement driving assembly 60 includes a driving member 61 and a transmission unit 63. The driving member 61 and the mounting frame 35 are both connected to a transmission unit 63, and the transmission unit 63 is used to transmit the driving force of the driving member 61 to the mounting frame 35. It should be noted that, in some embodiments, the transmission unit 63 may include one or more of a screw assembly, a rack-and-pinion assembly, a pulley transmission assembly, and the like, which are not limited herein.

In some embodiments, the mobile drive assembly 60 may further include a drag chain 65, the drag chain 65 being disposed outside of the guide 135 and configured to receive the circuit of the mobile drive assembly 60, the drag chain 65 including opposite first and second ends, the first end 651 of the drag chain being coupled to the mounting bracket 35 and the second end 653 of the drag chain being coupled to the support 13.

Specifically, in the case where the driving member 61 drives the mounting bracket 35 to move in the third direction X3 or the fourth direction X4 with respect to the guide member 135, the first end 651 of the drag chain moves in the third direction X3 or the fourth direction X4 together with the mounting bracket 35. The drag chain 65 not only protects the loop circuit, but also avoids the problem of winding or interference between the loop circuit and the mounting frame 35 or other structures during the movement of the mounting frame 35 relative to the guide member 135, thereby ensuring the normal operation of the movement driving assembly 60. In some embodiments, the drag chain 65 may be a steel drag chain, a steel-aluminum drag chain, a plastic drag chain, a stainless steel drag chain, a nylon drag chain, or the like, which is not limited herein.

Referring to fig. 1, 6 and 7, in some embodiments, the pan structure 30 may further include a flip driving assembly 37, where the flip driving assembly 37 is disposed at the second end 353 of the mounting frame and connected to the pan assembly 31, and the flip driving assembly 37 is used to drive the pan assembly 31 to flip relative to the mounting frame 35. The flip drive assembly 37 is configured to drive the pot assembly 31 to flip relative to the mounting bracket 35 toward a side facing away from the support 13 in the event the pot assembly 31 is moved along the guide 135 to the second position. In case the pot assembly 31 is moved to the third position along the guide 135, the flipping driving assembly 37 serves to drive the pot assembly 31 to flip towards the side facing the support 13 with respect to the support 13.

In some embodiments, the tumble drive assembly 37 may include a power element 371 and a transmission element 373. The transmission part 373 is connected with the power part 371 and the pot body assembly 31, and the transmission part 373 is used for transmitting the driving force of the power part 371 to the pot body assembly 31.

Specifically, under the condition that the power element 371 works, the power element 371 can drive the transmission part 373 to move, so that the driving force generated by the power element 371 can be transmitted to the pot body assembly 31 by the transmission part 373, and the pot body assembly 31 can be turned over relative to the mounting frame 35. It should be noted that, in some embodiments, the transmission unit 63 may include one or more of a screw assembly, a rack-and-pinion assembly, a pulley transmission assembly, and the like, which are not limited herein.

In some embodiments, the overturning driving assembly 37 may further include a detecting member 375, where the detecting member 375 is disposed on at least one of the transmission member 373, the mounting frame 35 and the pan body assembly 31, and the detecting member 375 is used to detect an overturning angle of the pan body assembly 31 relative to the mounting frame 35. The setting of detecting piece 375 can avoid pot body subassembly 31 relative mounting bracket 35's flip angle too big, leads to the pot body subassembly 31 to interfere with other structures of cooking equipment 100 and damage to guarantee cooking equipment 100's normal work. It should be noted that, in some embodiments, the detecting member 375 may be a code wheel or an angle sensor, etc., which is not limited herein.

Specifically, with the pan body assembly 31 moved to the first position in the third direction X3 relative to the support member 13, the stirring assembly 33 can extend into the pan body assembly 31 to stir the material in the pan body assembly 31. Under the condition that the pan body assembly 31 moves to the second position or the third position along the fourth direction X4 relative to the supporting member 13, the pan body assembly 31 is separated from the stirring assembly 33, the overturning driving assembly 37 can drive the pan body assembly 31 to overturn relative to the supporting member 13 so as to pour out the articles in the pan body assembly 31, at this time, the detecting member 375 can detect the overturning angle of the pan body assembly 31 relative to the supporting member 13, and the electric control structure 103 controls the operation of the power member 371 according to the overturning angle of the pan body assembly 31 acquired by the detecting member 375 relative to the supporting member 13. For example, when the pan body assembly 31 moves to the second position or the third position along the fourth direction X4 relative to the support member 13, the electric control structure 103 can control the power member 371 to work so as to turn over the pan body assembly 31, when the pan body assembly 31 turns over to the preset position, the electric control structure 103 can control the power member 371 to stop working so as to make the pan body assembly 31 stationary, and after the articles in the pan body assembly 31 are completely poured out, the electric control structure 103 can control the power member 371 to work so as to reverse the direction of the pan body assembly 31 to the position before turning over.

It should be noted that, in some embodiments, the preset position may be a known position. For example, the preset position may be a position where the pot assembly 31 is flipped relative to the support 13 to enable full pouring of the contents of the pot assembly 31. In one example, the preset position may be an empirical value obtained before the cooking apparatus 100 leaves the factory. In another example, the preset position may be a set position input by a user when using the cooking apparatus 100 after shipment of the cooking apparatus 100.

Referring to fig. 1 and 6, in some embodiments, the pan body assembly 31 may include a pan body 311 and a heating member 313. The pan body 311 is configured to receive a material, and the stirring assembly 33 can extend into the pan body 311 when the pan body assembly 31 moves to the first position along the third direction X3 relative to the support member 13. The heating part 313 is closer to the bearing part 11 than the pan body 311, and the heating part 313 is used for heating the pan body 311 according to different dishes. It should be noted that, in some embodiments, the heating manner of the heating unit 313 may be preset. For example, the preset heating means may be an empirical value obtained before shipment of the cooking apparatus 100; or a setting mode input by a user when using the cooking apparatus 100 after shipment of the cooking apparatus 100. Therefore, the cooking device 100 can automatically select different heating modes according to different dishes, thereby improving the intellectualization of the cooking device 100.

Specifically, in some embodiments, the mounting frame 35 may be connected to the pan body 311, and the detecting member 375 is disposed on at least one of the transmission member 373, the mounting frame 35, and the pan body assembly 31, so that the pan body 311 is turned over together with the heating member 313 when the turn driving assembly 37 drives the pan body assembly 31 to turn over. In the case that the overturning driving assembly 37 does not drive the pot body assembly 31 to overturn, the opening of the pot body 311 faces the stirring assembly 33; in the case that the overturning driving assembly 37 drives the pot body assembly 31 to overturn, the opening of the pot body 311 is inclined toward the direction of the bearing piece 11, so that the materials in the pot body 311 can be poured out through the opening of the pot body 311.

With continued reference to fig. 1 and 6, in some embodiments, the stirring assembly 33 may include a mount 331, a stirring member 333, and an actuating member 335. The mounting base 331 is mounted to the support 15. The stirring member 333 is mounted on the mounting base 331, and the stirring member 333 extends into the pan body assembly 31 when the pan body assembly 31 moves in the third direction X3 relative to the support 13. The actuating component 335 is mounted on the mounting base 331 and connected to the stirring component 333, and the actuating component 335 is used for driving the stirring component 333 to rotate so as to stir the materials in the pot body assembly 31. It should be noted that, in some embodiments, the stirring manner (such as stirring time or stirring speed) of the material in the pot assembly 31 by the stirring assembly 33 may be preset. For example, the preset stirring means may be an empirical value obtained before the cooking apparatus 100 leaves the factory; or a setting mode input by a user when using the cooking apparatus 100 after shipment of the cooking apparatus 100.

Specifically, in some embodiments, the mounting base 331 is mounted to a side of the bearing 15 facing the carrier 11. Thus, the provision of the mounting seat 331 can provide mounting locations for the stirring member 333 and the actuation member 335; in addition, the actuating component 335 may be disposed in the mounting base 331, so that the mounting base 331 can provide protection for the actuating component 335, prevent the actuating component 335 from being damaged, and ensure the normal operation of the stirring assembly 33. Wherein, under the condition that the pot body assembly 31 moves along the third direction X3 relative to the support 13, the stirring part 333 can extend into the pot body 311 through the opening of the pot body 311, under the condition that the stirring part 333 is driven to rotate by the actuating part 335, the stirring part 333 stirs the materials in the pot body 311, and the heating part 313 can heat the pot body 311, thereby realizing cooking of dishes.

Referring to fig. 8, in some embodiments, the stirring member 333 may include a first stirring member 3331, where the first stirring member 3331 includes a first stirring rod 3332 and a first stirring blade 3333 disposed at one end of the first stirring rod 3332, and the other end of the first stirring rod 3332 is connected to an actuating member 335.

Specifically, in some embodiments, when the actuating member 335 drives the first stirring rod 3332 to rotate, the first stirring member 3331 can rotate in the pan body 311, and the first stirring shovel 3333 can uniformly and fully stir the materials in the pan body 311. It should be noted that, in some embodiments, the first stirring member 3331 may stir only the material in the bottom region of the pot body 311.

In some embodiments, the first stirring shovel 3333 may include one, one end of the first stirring shovel 3333 is connected with the first stirring rod 3332, and the other end of the first stirring shovel 3333 is abutted against the inner wall of the pot body 311, so that the materials in the pot body 311 can be uniformly and fully stirred when the first stirring shovel 3333 rotates. In other embodiments, the first mixing blade 3333 may include two. The first stirring member 3331 can further include a connection frame 3337, one end of the first stirring rod 3332 is connected to the connection frame 3337, and the other end of the first stirring rod 3332 is connected to the actuating member 335. Two first stirring blades 3333 may be respectively positioned at opposite ends of the connection frame 3337. The arrangement of the two first stirring spades 3333 can enable the first stirring pieces 3331 to cover the whole area in the pot body 311, so that the stir-frying is more uniform.

In some embodiments, the first stirring rod 3332 may be an elastic rod that is adjustable in length in the length direction and elastically stretchable. Specifically, the first stirring rod 3332 may include a first sub-rod 33321 and a second sub-rod 33323, one end of the first sub-rod 33321 is connected to the actuating member 335, one end of the first sub-rod 33321 far from the actuating member 335 is telescopically connected to the second sub-rod 33323, the first stirring blade 3333 is mounted on one end of the second sub-rod 33323 far from the first sub-rod 33321, and the first stirring blade 3333 keeps abutting against the inner wall of the pot body 311 in case the stirring assembly 33 extends into the pot body assembly 31. Thus, the first stirring rod 3332 can elastically stretch and retract to adjust the total length of the first sub rod 33321 and the second sub rod 33323, thereby changing the stroke of the first stirring piece 3331; on the other hand, the first stirring shovel 3333 keeps against the inner wall of the pot body 311, so that the problem that materials are stuck to the pot in the cooking process is effectively avoided.

In some embodiments, the stirring member 333 can further include a second stirring member 3334, the second stirring member 3334 rotating in synchronization with the first stirring member 3331; the second stirring member 3334 includes a second stirring rod 3335 and a second stirring blade 3336 provided at one end of the second stirring rod 3335, and the other end of the second stirring rod 3335 is connected to the actuating member 335.

Specifically, in some embodiments, when the actuating member 335 drives the second stirring rod 3335 to rotate, the second stirring member 3334 can rotate in the pan body 311, and the second stirring shovel 3336 can uniformly and fully stir the materials in the pan body 311. It should be noted that, in some embodiments, the second stirring member 3334 may only stir the material in the inner area of the side wall of the pan body 311, so that on one hand, the material is prevented from adhering to the side wall of the pan body 311, and thus the material cannot be completely cooked, and the cooking effect is ensured; on the other hand, the material overflow pot body 311 can be prevented from causing material waste.

In some embodiments, the second stirring rod 3335 may be an elastic rod that is adjustable in length in the length direction and elastically stretchable. Specifically, the second stirring rod 3335 may include a third sub-rod 33351 and a fourth sub-rod 33353, one end of the third sub-rod 33351 is connected to the actuating member 335, one end of the third sub-rod 33351 remote from the actuating member 335 is telescopically connected to the fourth sub-rod 33353, the second stirring blade 3336 is mounted on one end of the fourth sub-rod 33353 remote from the third sub-rod 33351, and the second stirring blade 3336 keeps abutting against the inner wall of the pot body 311 with the stirring assembly 33 extending into the pot body assembly 31. Thus, the second stirring rod 3335 can elastically stretch and retract to adjust the total length of the third sub rod 33351 and the fourth sub rod 33353, thereby changing the stroke of the second stirring member 3334; on the other hand, the second stirring shovel 3336 keeps against the inner wall of the pot body 311, so that the problem that materials are stuck to the pot in the cooking process is effectively avoided.

Referring to fig. 1, 6 and 8, in some embodiments, the stirring assembly 33 may further include a planetary transmission member 373337, where the planetary transmission member 373337 is mounted on the mounting base 331 and connected to the actuating member 335, the actuating member 335 can drive the planetary transmission member 373337 to move, and the stirring member 333 is connected to the planetary transmission member 373337, where the planetary transmission member 373337 drives the stirring member 333 to rotate when the actuating member 335 drives the planetary transmission member 373337 to move.

Specifically, in some embodiments, one end of the first stirring rod 3332 may be connected to the planetary transmission member 373337, and the other end is connected to the first stirring shovel 3333, where the actuating member 335 drives the planetary transmission member 373337 to move, the planetary transmission member 373337 drives the first stirring rod 3332 to rotate, so that the first stirring shovel 3333 stirs the material in the pot body 311. The planetary transmission member 373337 can drive the first stirring member 3331 to revolve while rotating, so as to sufficiently and uniformly stir the material in the pot body 311. In addition, one end of the second stirring rod 3335 may be connected to the planetary transmission member 373337, and the other end is connected to the second stirring shovel 3336, where the actuating member 335 drives the planetary transmission member 373337 to move, the planetary transmission member 373337 drives the second stirring rod 3335 to rotate, so that the second stirring shovel 3336 stirs the material in the pot body 311. The planetary transmission member 373337 can drive the second stirring member 3334 to revolve. The revolution of the second stirring member 3334 and the revolution of the first stirring member 3331 are performed synchronously, so that the first stirring member 3331 and the second stirring member 3334 can fully cover the area in the pot body 311, and the stirring assembly 33 can stir the materials in the pot body 311 more uniformly, so that the cooking effect is improved.

In some embodiments, the actuating member 335 may be a driving motor 3351, where an output shaft of the driving motor 3351 is connected to a planetary transmission member 373337, and when the driving motor 3351 works, the output shaft of the driving motor 3351 rotates to drive the planetary transmission member 373337 to move, so as to drive the stirring member 333 to rotate. In other embodiments, the actuating member 335 may include a driving motor 3351 and a transmission unit 3353, wherein the transmission unit 3353 is connected to the driving motor 3351 and the planetary transmission member 373337, and the transmission unit 3353 is used for transmitting the driving force of the driving motor 3351 to the planetary transmission member 373337. Specifically, in the case where the driving motor 3351 operates, the output shaft of the driving motor 3351 rotates and transmits the driving force to the planetary transmission member 373337 through the transmission unit 3353 to drive the planetary transmission member 373337 to move, thereby driving the stirring member 333 to rotate. It should be noted that, in some embodiments, the transmission unit 3353 may be a belt transmission mechanism, a gear transmission mechanism, a worm and gear transmission mechanism, or the like, which is not limited herein.

Referring to fig. 1 and 9, in some embodiments, the feeding structure 70 is installed in the carrier 11. The feeding structure 70 may include a storage assembly 71 disposed on the carrier 11, where the storage assembly 71 includes a plurality of storage members 711 for storing materials and a discharge assembly 73. The discharging assembly 73 is connected with the storage member 711, and the discharging assembly 73 is used for extracting the materials in the storage member 711 into the pot body assembly 31.

Specifically, the carrier 11 may be provided with a storage cavity 113, and at least a portion of the feeding structure 70 is accommodated in the storage cavity 113. The storage cavity 113 can protect the feeding structure 70 and prevent the feeding structure 70 from being damaged; on the other hand, the space occupied by the feeding structure 70 and the carrier 11 can be reduced, thereby realizing miniaturization of the cooking apparatus 100.

The storage member 711 may be of a structure having an interior cavity, and the storage member 711 is adapted to store liquid material and communicate with the discharge assembly 73. In some embodiments, the volumes of the plurality of storage members 711 are all the same. In other embodiments, at least a portion of the volume of the storage 711 is different. Therefore, the user can select the storage parts 711 with different volumes according to the use frequency of different liquid materials, namely, the liquid materials with higher use frequency can select the storage part 711 with larger volume, the liquid materials with lower use frequency can select the storage part 711 with smaller volume, so that the frequency of replenishing the liquid materials can be reduced. For example, water may be used more frequently during cooking, and then may be placed in the larger volume of the storage 711. In addition, at least some of the storage members 711 may have different volumes to facilitate user identification of the storage members 711 containing different liquid materials.

In some embodiments, the storage 711 may be provided with a discharge port in communication with the discharge assembly 73 and a feed port for replenishing the liquid material. During cooking, the discharging assembly 73 can pump the liquid material in the storing member 711 into the pan body assembly 31 through the discharging hole, and under the condition that the liquid material in the storing member 711 is used up, a user can add the liquid material into the storing member 711 through the feeding hole so as to supplement the liquid material.

In certain embodiments, the outfeed assembly 73 may comprise an outfeed line 731 and a suction pump 733. One end of the discharging pipeline 731 is communicated with the storage part 711, and the other end of the discharging pipeline is exposed from the side of the bearing part 15 facing the supporting part 13 and is opposite to the pot body assembly 31. The pump 733 is disposed on the discharging pipeline 731, and the pump 733 is used for pumping the material in the storage part 711.

Specifically, in some embodiments, the discharging pipeline 731 may include a plurality of discharging pipelines 731 and a plurality of storage pieces 711 in a one-to-one correspondence, so that when the feeding structure 70 feeds the pot body assembly 31, liquid materials in different storage pieces 711 can be prevented from being mixed, and thus the cooking effect of the cooking apparatus 100 is ensured. For example, in the case where the feeding structure 70 needs to feed a certain liquid material, such as brine, the pump 733 corresponding to the storage part 711 containing brine is started to operate, so that the brine in the storage part 711 can be pumped into the pot assembly 31 through the discharge pipe 731.

Further, in certain embodiments, the pan structure 30 may include one or more. At this time, the discharge line 731 may also include a plurality of storage parts 711, and each storage part 711 may correspond to the same number of discharge lines 731 as the pot structure 30.

Specifically, in the case that the pan body structure 30 includes one storage part 711 corresponds to one discharge pipeline 731, and in the case that the feeding structure 70 needs to feed liquid material, the pump 733 corresponding to the storage part 711 starts to operate, so that the liquid material stored in the storage part 711 is pumped into the pan body assembly 31 through the discharge pipeline 731. In the case that the pot structure 30 includes a plurality, each of the storage parts 711 may correspond to the same number of discharge pipes 731 as the pot structure 30. For example, in the case that the pan body structure 30 includes two discharge pipes 731 corresponding to each storage part 711, and in the case that the feeding structure 70 needs to feed liquid materials (e.g., edible oil), the pump 733 is started corresponding to the storage part 711 containing edible oil, so that the edible oil stored in the storage part 711 can be pumped into the two pan body assemblies 31 through the two discharge pipes 731 respectively.

In some embodiments, each pump 733 corresponds to one discharge pipeline 731, so that the accuracy of feeding the feeding structure 70 to different pan structures 30 can be improved, and the cooking effect of the cooking apparatus 100 can be ensured. In other embodiments, each pump 733 corresponds to a plurality of discharge pipelines 731, so that the number of pumps 733 can be reduced, and the production cost of the feeding structure 70 can be reduced.

Referring to fig. 1 and 10, in some embodiments, the collecting structure 80 is disposed on the carrier 11. The arrangement of the collection structure 80 can facilitate the cleaning of the falling material when the pot structure 30 is cooked, and prevent the falling material from polluting the cooking device 100 or the cooked dishes of the pot structure 30.

In some embodiments, the collecting structure 80 is detachably mounted on a side of the carrier 11 facing the pot structure 30, that is, along the first direction X1, the collecting structure 80 is mounted on the top of the carrier 11 (the surface of the carrier 11 facing the support 15), so that the mounting of the collecting structure 80 can be facilitated, and the assembly efficiency of the cooking apparatus 100 can be improved.

In other embodiments, the side of the carrier 11 facing the collecting structure 80 is provided with a receiving groove 115, and the collecting structure 80 is partially located in the receiving groove 115. Specifically, in some embodiments, the receiving groove 115 is recessed from the side of the carrier 11 facing the pot structure 30 in a direction away from the pot structure 30, and the receiving groove 115 corresponds to the pot structure 30. The accommodating groove 115 can play a role in limiting the collecting structure 80, so that the material is prevented from falling to the outside of the collecting structure 80 due to the fact that the position of the collecting structure 80 is deviated in the working process of the cooking equipment 100; on the other hand, the collecting structure 80 is partially located in the accommodating groove 115, so that the space occupied by the collecting structure 80 can be reduced, interference between the collecting structure 80 and other structures (such as the pot body structure 30) of the cooking apparatus 100 is avoided, and normal operation of the cooking apparatus 100 is ensured.

Referring to fig. 11, in some embodiments, the collecting structure 80 is partially located in the accommodating groove 115 and divides the accommodating groove 115 into a first subchamber 1151 and a second subchamber 1153, the first subchamber 1151 is further away from the bottom 1155 of the accommodating groove than the second subchamber 1153, the first subchamber 1151 is used for collecting solid materials in the materials dropped during cooking of the pan body structure 30, and the second subchamber 1153 is used for collecting liquid materials in the materials dropped during cooking of the pan body structure 30.

Specifically, in certain embodiments, the collection structure 80 may include a bottom wall 81 and a peripheral wall 83 extending from the periphery of the bottom wall 81 in a direction away from the carrier 11. With portions of the collection structure 80 within the receiving groove 115, the bottom wall 81 of the collection structure and the peripheral wall 83 of the collection structure can cooperate to divide the receiving groove 115 into a first subchamber 1151 and a second subchamber 1153.

In some embodiments, with collection structure 80 positioned within receiving channel 115, bottom wall 81 of the collection structure is spaced from bottom 1155 of the receiving channel, and peripheral wall 83 of the collection structure is spaced from the sides of receiving channel 115 and connected to carrier 11, whereby collection structure 80 is capable of separating receiving channel 115 into first subchamber 1151 and second subchamber 1153. In other embodiments, with the collection structure 80 positioned within the receiving channel 115, the bottom wall 81 of the collection structure is spaced from the bottom 1155 of the receiving channel, the peripheral wall 83 of the collection structure is in interference with the sides of the receiving channel 115, i.e., there is no gap between the peripheral wall 83 of the collection structure and the sides of the receiving channel 115, and the peripheral wall 83 of the collection structure is connected to the carrier 11, whereby the collection structure 80 is able to divide the receiving channel 115 into a first subchamber 1151 and a second subchamber 1153.

Referring to fig. 1, 10 and 11, in some embodiments, a bottom 1155 of the accommodating chamber is provided with a through hole 1157, and the through hole 1157 is used for flowing out the liquid material collected in the second subchamber 1153.

If the plane of the bottom 1155 of the accommodating groove is perpendicular to the height direction of the carrying structure 10, the liquid material in the second subchamber 1153 cannot completely flow out through the through hole 1157 under the action of the water tension, so as to affect the cleaning effect of the cooking apparatus 100. Accordingly, in the embodiment of the present application, the depth of the receiving groove 115 gradually decreases in a direction from the side of the carrier 11 where the support 13 is located to the opposite side of the carrier 11 from the support 13. The through hole 1157 may be disposed at a position with the greatest depth of the accommodating groove 115 along a direction from a side of the supporting member 13 of the carrier 11 to an opposite side of the carrier 11 to the supporting member 13, so that the liquid material in the second subchamber 1153 flows to the through hole 1157, flows out of the second subchamber 1153 through the through hole 1157, and further affects the cleaning effect of the cooking apparatus 100.

In some embodiments, the bottom wall 81 of the collection structure is provided with a plurality of flow holes 811, through which the first subchamber 1151 communicates with the second subchamber 1153, the flow holes 811 being adapted to allow the liquid material in the first subchamber 1151 to pass through into the second subchamber 1153 and not to allow the solid material in the first subchamber 1151 to pass through so as to block the solid material in the first subchamber 1151, and the peripheral wall 83 of the collection structure being connected to the carrier 11. Therefore, the collection structure 80 can prevent the solid material from entering the accommodating groove 115, which results in blocking of the through hole 1157, thereby ensuring that the liquid material in the second subchamber 1153 can flow out smoothly.

In some embodiments, the collection structure 80 may further include a grip 85, the grip 85 being disposed on the peripheral wall, the grip 85 being for a user to grip to move the collection structure 80. Specifically, when it is desired to clean the material in the collection structure 80, the user may remove the collection structure 80 from the receiving tub 115 through the grip 85 and place the collection structure 80 in the receiving tub 115 after the cleaning is completed. The arrangement of the gripping member 85 can facilitate grasping of the collection structure 80 by a user, thereby making it more labor-saving for the user to move the collection structure 80. In some embodiments, the outer peripheral wall of the grip 85 is provided with a protrusion, so that the friction force of the grip 85 can be increased, and the user can be prevented from falling off when gripping to move the collecting structure 80.

In some embodiments, the carrier 11 is disposed obliquely toward one side of the bearing 15. At this time, the opening of the receiving groove 115 is inclined toward the supporter 15 and in a direction away from the supporter 13, so that the user can conveniently move the collecting structure 80.

Referring to fig. 1 and 11, in some embodiments, an air hole 153 is disposed on a side of the support 15 facing the pot assembly 31, the feed opening 151 is corresponding to and communicated with the air hole 153, the stirring assembly 33 is installed in the air hole 153, and the pot assembly 31 is opposite to the air hole 153 when the pot assembly 31 is at the first position. The smoke exhausting structure 90 is disposed on the supporting member 15 and is communicated with the air hole 153, and under the condition that the smoke exhausting structure 90 works, the smoke generated by the pot body structure 30 during cooking can be extracted to the outside. The arrangement of the smoke exhaust structure 90 can prevent the smoke from being spread in the cooking apparatus 100, thereby ensuring the cleanliness of the cooking apparatus 100.

Referring to fig. 2 and 3, in some embodiments, the air hole 153 may be recessed from the side of the support 15 facing the pot assembly 31 toward the top of the support 15 and is in communication with the feed opening 151, and when the film tearing structure 20 tears the packaging film 320 on the cartridge 300, the material in the cartridge 300 can fall into the pot assembly 31 through the feed opening 151 and the air hole 153 in sequence. In addition, the air hole 153 can be communicated with the smoke exhausting structure 90, and under the condition that the smoke exhausting structure 90 works, the cooking fume generated by the cooking of the pot body structure 30 can be pumped out to the outside through the air hole 153 by the smoke exhausting structure 90, so that the diffusion of the cooking fume in the cooking equipment 100 can be avoided, and the cleanliness of the cooking equipment 100 is ensured. In some embodiments, the size of the feed opening 151 may be smaller than the size of the air hole 153, thereby reducing or even avoiding the contamination of the tear film structure 20 caused by the ingress of soot into the tear film structure 20. In other embodiments, the air hole 153 may extend through the support 15 and communicate with the feed opening 151, in other words, the feed opening 151 may be a part of the air hole 153, and in case the film tearing structure 20 tears the packaging film 320 on the cartridge 300, the material in the cartridge 300 can fall into the pot assembly 31 through the air hole 153.

Referring specifically to fig. 1, 11, 12 and 13, in some embodiments, the smoke evacuation structure 90 may include a base 91, a smoke evacuation member 93 and a suction member 95. The base 91 is disposed in the supporting member 15, the base 91 is provided with a through hole 911 and a communication hole 913, the through hole 911 communicates with the air hole 153, and the through hole 911 corresponds to and communicates with the discharge opening 151. The smoke discharging member 93 is disposed on the base 91 and has a smoke discharging channel 931 therethrough, the smoke discharging channel 931 includes a first end 9311 and a second end 9313, the first end 9311 of the smoke discharging channel is in communication with the communication hole 913, and the second end 9313 of the smoke discharging channel is in communication with the outside atmosphere. A suction member 95 is provided in the smoke discharge passage 931, the suction member 95 being for sucking the smoke.

The base 91 is disposed in the supporter 15, so that the space occupied by the base 91 can be reduced, thereby achieving miniaturization of the cooking apparatus 100. In addition, if the base 91 is disposed outside the supporting member 15 (for example, on top of the supporting member 15), the distance between the smoke exhausting structure 90 and the pot structure 30 is long, so that the smoke exhausting structure 90 has poor sucking effect on the cooking fume generated by the pot structure 30 during cooking, and the cooking fume contacts the cooking apparatus 100 to pollute the cooking apparatus 100. Therefore, the distance between the smoke discharging structure 90 and the pan body structure 30 can be reduced by the base 91 disposed in the supporting member 15, so that the smoke discharging structure 90 can improve the smoke sucking effect of the pan body structure 30 on cooking, reduce or even avoid the contact between the smoke and the cooking device 100, and further ensure the cleanliness of the cooking device 100.

If the distance between the suction member 95 and the first end 9311 of the smoke exhaust channel is smaller than the distance between the suction member 95 and the second end 9311 of the smoke exhaust channel, that is, the suction member 95 is closer to the first end of the smoke exhaust 93 than the second end of the smoke exhaust 93, after the suction member 95 sucks the smoke into the smoke exhaust channel 931, the smoke cannot be rapidly discharged from the second end 9313 of the smoke exhaust channel to the outside, and the smoke condenses in the smoke exhaust channel 931 to pollute the smoke exhaust 93. Thus, in some embodiments, the distance between the suction member 95 and the first end 9311 of the smoke evacuation channel is greater than the distance between the suction member 95 and the second end 9311 of the smoke evacuation channel, that is, the suction member 95 is closer to the second end of the smoke evacuation member 93 than to the first end of the smoke evacuation member 93, so that the suction member 95 can be conveniently and quickly discharged to the outside through the second end 931 of the smoke evacuation channel after sucking the smoke into the smoke evacuation channel 931, thereby reducing or even avoiding the condensation of the smoke in the smoke evacuation channel 931 and further ensuring the cleanliness of the smoke evacuation member 93.

More specifically, in some embodiments, the base 91 may include a top wall 915 and a side wall 917 extending from the top wall 915 toward the support 15, the base 91 and the support 15 together form the exhaust space 910, the communication hole 913 is disposed on the side wall 917 of the base, and when the suction member 95 sucks, the oil smoke is discharged to the outside through the through hole 911, the communication hole 913, the exhaust space 910 and the smoke exhaust channel 931 in sequence.

In some embodiments, the smoke exhaust structure 90 may further include a blocking member 97, where the blocking member 97 covers the communication hole 913, and the blocking member 97 is provided with a plurality of through holes 971, and the through holes 971 are used for allowing the oil smoke to enter the exhaust space 910. The blocking member 97 is provided to prevent a large object from entering the smoke discharging passage 931 through the communication hole 913, causing the object to contact the suction member 95 to damage the suction member 95, thereby ensuring the normal operation of the smoke discharging structure 90.

In some embodiments, the smoke evacuation structure 90 may further include a guide 98, where the guide 98 is disposed in the exhaust space 910, and one end of the guide 98 is connected to the support 15, and the other end is connected to the smoke evacuation member 93, and the guide 98 is used to guide the smoke into the smoke evacuation channel 931. Specifically, in some embodiments, the guide member 98 is connected to the supporting member 15 and the side wall 917 of the base and the top wall 915 of the base, and is located between the communication hole 913 and the first end 9311 of the smoke exhaust channel, so that the smoke can quickly pass through the smoke exhaust space 910 and enter the smoke exhaust channel 931 under the guiding action of the guide member 98, so as to ensure the smoke exhaust efficiency of the smoke exhaust structure 90 on the one hand; on the other hand, the oil dirt generated by the condensation of the oil smoke in the smoke discharging structure 90 can be reduced, and the cleanness of the smoke discharging structure 90 is ensured.

In some embodiments, the smoke evacuation structure 90 may further include an oil reservoir 99, where the oil reservoir 99 is mounted on a side of the support 15 facing the pot assembly 31, and the oil reservoir 99 is in communication with the air evacuation space 910, and the oil reservoir 99 is configured to store oil.

If the oil storage member 99 is not provided, the oil dirt generated by the condensation of the oil smoke is located in the exhaust space 910 and the exhaust passage 931, but the whole exhaust structure 90 is detached for cleaning, which is time-consuming and labor-consuming. Therefore, in the embodiment of the present application, the oil storage member 99 is detachably mounted on the side of the support member 15 facing the pan body assembly 31, so that the oil dirt can flow into the oil storage member 99 under the action of gravity, thereby facilitating the cleaning of the oil dirt in the smoke exhaust structure 90 by a user. It should be noted that, in some embodiments, the oil storage member 99 may be made of transparent materials such as acryl, so that a user can observe the amount of oil dirt collected in the oil storage member 99 conveniently, so that the user can clean the oil storage member 99 in time.

Referring to fig. 1, in some embodiments, the cooking apparatus 100 may further include an electrical control structure 103, where the electrical control structure 103 is disposed on the carrying structure 10, and the electrical control structure 103 is used to control the operation of the pan structure 30.

Specifically, in some embodiments, the electronic control structure 103 may include a display screen 1031 with a touch function, where the display screen 1031 is disposed on the carrying structure 10. In the embodiment of the application, the display screen 1031 may be disposed on a side of the supporting member 15 away from the supporting member 13, so as to be convenient for a user to operate. Wherein, the display 1031 may display the cooking process of the pan body structure 30 on the dishes, and the user may control the working state (such as start, pause, end, etc.) of the pan body structure 30 through the display 1031; faults occurring in the pan body structure 30 can also be handled through the display 1031. More specifically, referring to fig. 10, in some embodiments, the electronic control structure 103 may further include a control component 1033, and the control component 1033 may be disposed within the support 13. The control component 1033 can control the movable driving component 60 to drive the pot body component 31 to move relative to the supporting piece 13; the overturning driving assembly 37 can be controlled to drive the pot body assembly 31 to overturn relative to the mounting frame 35; the feeding structure 70 may also be controlled for feeding or the like into the pan body assembly 31.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description. Also, other implementations may be derived from the above-described embodiments, such that structural and logical substitutions and changes may be made without departing from the scope of this disclosure.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the patent. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (30)

1. A cooking apparatus, comprising:

a load bearing structure;

a plurality of film tearing structures, which are arranged on the top of the bearing structure in the height direction of the bearing structure and are used for tearing packaging films on the material box to release materials in the material box; a kind of electronic device with high-pressure air-conditioning system

The pot body structures are arranged on the bearing structures and correspond to the film tearing structures respectively, and the pot body structures are used for receiving materials released by the film tearing structures and cooking the materials.

2. The cooking apparatus of claim 1, wherein the pan structure comprises a pan assembly and a stirring assembly; the load bearing structure comprises:

a carrier;

the pot body assembly is movably arranged on the supporting piece and can be far away from or close to the bearing piece; a kind of electronic device with high-pressure air-conditioning system

The stirring assembly is arranged on one side of the supporting piece, which faces the bearing piece, and the stirring assembly is arranged on the other side of the supporting piece, which faces the bearing piece.

3. The cooking apparatus of claim 2, wherein the tear film structure comprises:

the bearing assembly is arranged on the bearing member and is provided with a containing space for containing the material box, the material box can move in the containing space along a first direction, and the bearing assembly is provided with a through material feeding port which is positioned on a moving path of the material box;

The pushing box assembly is used for pushing the material box to move in the accommodating space along the first direction; a kind of electronic device with high-pressure air-conditioning system

The film tearing assembly is arranged on the supporting assembly and used for carrying out film tearing operation on the material box, the pushing assembly pushes any blanking port on the material box to correspond to the material feeding port, and the packaging film at the blanking port is torn by the film tearing assembly, so that materials in the material box fall out from the blanking port and the material feeding port in sequence.

4. A cooking apparatus according to claim 3, wherein the support is provided with a blanking port, and material in the cartridge falls into the pan body structure from the blanking port, the feeding port and the blanking port in sequence under the condition that the pushing assembly pushes the cartridge to enable any blanking port on the cartridge to correspond to the feeding port and the packaging film at the blanking port is torn by the film tearing assembly.

5. A cooking apparatus according to claim 3, wherein the tear film structure further comprises:

and the box withdrawing component is used for pushing the material box to move along a second direction so as to withdraw from the accommodating space under the condition that the box pushing component moves to a limit position along the first direction, and the first direction is opposite to the second direction.

6. The cooking apparatus of claim 5, further comprising a cartridge retrieval structure removably mounted to the carrier, the cartridge retrieval structure for collecting the cartridges that move in the second direction to exit the receiving space.

7. A cooking apparatus according to claim 3, wherein the cooking apparatus further comprises:

temporary storage blanking structure in the direction of height of bearing structure, temporary storage blanking structure set up in tear film structure's top, temporary storage blanking structure is used for the storage the magazine, and will the magazine is thrown in the accommodation space.

8. The cooking apparatus of claim 2 wherein the carrier, the support and the brace together enclose a cooking space; the pot body assembly can move relative to the support piece in the cooking space to be far away from or close to the bearing piece; the stirring assembly stretches into the pot body assembly and is used for stirring materials in the pot body assembly under the condition that the pot body assembly moves to a first position along a third direction relative to the supporting piece; under the condition that the pot body assembly moves to a second position along a fourth direction relative to the supporting piece, the pot body assembly is separated from the stirring assembly and can turn over relative to the supporting piece, the second position is lower than the first position compared with the bearing piece, and the third direction is different from the fourth direction.

9. The cooking apparatus of claim 8, wherein the cooking apparatus further comprises:

the split charging structure is borne by the bearing piece, the pot body assembly is opposite to the supporting piece, under the condition that the pot body assembly turns over towards one side deviating from the supporting piece, the pot body assembly can pour dishes after cooking into the split charging structure, and the split charging structure is used for split charging the dishes.

10. Cooking apparatus according to claim 2, wherein the support is provided with guides extending in a third or fourth direction; the pot body structure also comprises:

the mounting bracket, the mounting bracket includes relative first end and second end, the first end of mounting bracket movably install in the guide, the pot body subassembly install in the second end of mounting bracket.

11. The cooking apparatus of claim 10, wherein the cooking apparatus further comprises:

the movable driving assembly is installed on the supporting piece and connected with the mounting frame, and the movable driving assembly is used for driving the first end of the mounting frame to move along the guide piece so as to drive the pot body assembly to move along the guide piece.

12. The cooking apparatus of claim 10, wherein the pot structure further comprises:

the overturning driving assembly is arranged at the second end of the mounting frame and connected with the pot body assembly, and the overturning driving assembly is used for driving the pot body assembly to overturn relative to the mounting frame;

the overturning driving assembly is used for driving the pot body assembly to overturn towards one side away from the supporting piece relative to the mounting frame under the condition that the pot body assembly moves to a second position along the guide piece; the overturning driving assembly is used for driving the pot body assembly to overturn towards one side facing the supporting piece relative to the supporting piece under the condition that the pot body assembly moves to a third position along the guiding piece.

13. The cooking apparatus of claim 12, wherein the tumble drive assembly comprises:

a power member; a kind of electronic device with high-pressure air-conditioning system

The transmission part is connected with the power piece and the pot body assembly, and the transmission part is used for transmitting the driving force of the power piece to the pot body assembly.

14. The cooking apparatus of claim 13, wherein the tumble drive assembly further comprises:

The detecting piece is arranged on at least one of the transmission part, the mounting frame and the pot body component, and the detecting piece is used for detecting the overturning angle of the pot body component relative to the mounting frame.

15. The cooking apparatus of claim 2, wherein the stirring assembly comprises:

the mounting seat is mounted on the bearing piece;

the stirring component is arranged on the mounting seat, and extends into the pot body component under the condition that the pot body component moves along a third direction relative to the supporting piece; a kind of electronic device with high-pressure air-conditioning system

And the actuating component is arranged on the mounting seat and connected with the stirring component, and the actuating component is used for driving the stirring component to rotate so as to stir the materials in the pot body component.

16. The cooking apparatus of claim 2, further comprising a feeding structure mounted within the carrying structure for feeding into the pan body assembly; the feeding structure comprises:

the storage assembly is arranged on the bearing piece and comprises a plurality of storage pieces for storing materials; a kind of electronic device with high-pressure air-conditioning system

The discharging assembly is connected with the storage piece and is used for extracting materials in the storage piece to the pot body assembly.

17. The cooking apparatus of claim 16, wherein the outfeed assembly comprises:

one end of the discharging pipeline is communicated with the storage part, and the other end of the discharging pipeline is exposed from one side of the bearing part facing the supporting part and is opposite to the pot body assembly; a kind of electronic device with high-pressure air-conditioning system

And the extracting pump is arranged on the discharging pipeline and is used for extracting the materials in the storage part.

18. The cooking apparatus of claim 2, wherein the cooking apparatus further comprises:

the collecting structure is arranged on the bearing piece and is used for collecting materials falling off from the pot body assembly during cooking.

19. The cooking apparatus according to claim 18, wherein the carrier is further configured to carry the collection structure, a receiving groove is provided on a side of the carrier facing the collection structure, the collection structure is partially located in the receiving groove and divides the receiving groove into a first subchamber and a second subchamber, the first subchamber is further away from a bottom of the receiving groove than the second subchamber, the first subchamber is configured to collect solid materials of the materials that fall off when the pot structure is cooking, and the second subchamber is configured to collect liquid materials of the materials that fall off when the pot structure is cooking.

20. Cooking apparatus according to claim 19, wherein the depth of the receiving recess is gradually reduced in a direction from a side of the carrier where the support is located to an opposite side of the carrier from the support.

21. Cooking apparatus according to claim 19, wherein a bottom of the receiving trough is provided with a through hole for outflow of the liquid material collected in the second subchamber.

22. Cooking apparatus according to claim 19, wherein the collection structure comprises a bottom wall and a peripheral wall extending from a periphery of the bottom wall in a direction away from the carrier; the bottom wall of the collecting structure is provided with a plurality of through holes, the first subchamber is communicated with the second subchamber through the through holes, the through holes are used for allowing liquid materials in the first subchamber to flow into the second subchamber and not allowing solid materials in the first subchamber to pass through so as to block the solid materials in the first subchamber, and the peripheral wall of the collecting structure is connected with the bearing piece.

23. The cooking apparatus of claim 22, wherein the collection structure further comprises:

The holding piece is arranged on the peripheral wall and is used for being held by a user to move the collecting structure.

24. The cooking apparatus according to claim 2, wherein an air hole is formed in a side, facing the pot body assembly, of the support member, and a through blanking hole is formed in the support member, the blanking hole corresponds to and communicates with the air hole, the stirring assembly is installed in the air hole, and the pot body assembly is opposite to the air hole when the pot body assembly is in the first position; the cooking apparatus further includes:

the smoke exhausting structure is arranged on the supporting piece and communicated with the air holes, and is used for extracting oil smoke generated by the pot body structure during cooking.

25. The cooking apparatus of claim 24, wherein the smoke evacuation structure comprises:

the base is arranged in the supporting piece and is provided with a communicated through hole and a communication hole, the through hole is communicated with the air hole, and the through hole corresponds to and is communicated with the discharging opening;

the smoke exhausting piece is arranged on the base and is provided with a through smoke exhausting channel, the smoke exhausting channel comprises a first end and a second end, the first end of the smoke exhausting channel is communicated with the communication hole, and the second end of the smoke exhausting channel is communicated with the outside atmosphere; a kind of electronic device with high-pressure air-conditioning system

The suction piece is arranged in the smoke exhaust channel and is used for sucking the lampblack.

26. The cooking apparatus according to claim 25, wherein the base includes a top wall and a side wall extending from the top wall toward the supporter, the base and the supporter together form an exhaust space, the communication hole is provided in the side wall of the base, and the oil smoke is discharged to the outside through the perforation, the communication hole, the exhaust space, and the smoke discharge passage in this order when the suction member sucks.

27. The cooking apparatus of claim 26, wherein the smoke evacuation structure further comprises:

the separation piece covers the communication hole, the separation piece is provided with a plurality of through holes, and the through holes are used for enabling the lampblack to enter the exhaust space.

28. The cooking apparatus of claim 26, wherein the smoke evacuation structure further comprises:

the guide piece is arranged in the exhaust space, one end of the guide piece is connected with the bearing piece, the other end of the guide piece is connected with the smoke exhausting piece, and the guide piece is used for guiding the lampblack to enter the smoke exhausting channel.

29. The cooking apparatus of claim 26, wherein the smoke evacuation structure further comprises:

the oil storage piece is arranged on one side, facing the pot body assembly, of the bearing piece and is communicated with the exhaust space, and the oil storage piece is used for storing greasy dirt.

30. The cooking apparatus of claim 1, wherein the cooking apparatus further comprises:

the electric control structure is arranged on the bearing structure and used for controlling the work of the cooking equipment.