Carrier assembly and cooking appliance

Abstract

The application provides a carrier assembly and a cooking utensil. The carrier assembly comprises a carrier disc and a support connected with the carrier disc. At least a part of the support is located above the carrier disc along the thickness direction of the carrier disc. The part of the support located above the carrier disc is provided with a first mounting structure for mounting and positioning the carrier disc. The application rationally sets the structure of the carrier assembly. The carrier disc is suspended in the pot body through the first mounting structure. The connection part of the carrier assembly and the pot body is located above the carrier disc. The carrier disc is separated from the pot bottom of the pot body. The assembly of the carrier assembly and the pot body is not limited by the flatness of the pot bottom. The stability of the assembly of the carrier assembly is not limited by the flatness of the pot bottom. The application avoids the situation that the carrier disc is inclined or even overturned due to the non-planar pot bottom. The application can ensure the stability and reliability of the assembly of the carrier assembly and can expand the use adaptability of the carrier assembly.

Description

Technical Field

[0001] This application relates to the field of cooking utensil technology, and more specifically, to a food carrier assembly and a cooking utensil. Background Technology

[0002] To meet the needs of steaming food in a divided pot, a matching steaming tray needs to be placed inside the divided pot, and the food should be placed on the steaming tray.

[0003] In related technologies, to separate the steaming tray from the bottom of the pot, multiple support feet are installed at the bottom of the tray, with the feet abutting against the bottom of the pot to support the tray. This design prevents the steaming tray from being used with pots that have uneven bottoms. When the bottom of the pot is not flat, the support feet cannot effectively contact the bottom, making the steaming tray unstable and prone to tilting or even tipping over. This limits its usability and makes it difficult to cook food effectively. Utility Model Content

[0004] This application aims to address at least one of the technical problems existing in the prior art or related technologies.

[0005] Therefore, the first aspect of this application proposes a cargo carrier assembly.

[0006] The second aspect of this application proposes a cooking utensil.

[0007] In view of this, this application proposes a loading assembly, including: a loading tray; a bracket connected to the loading tray, wherein at least a portion of the bracket is located above the loading tray along the thickness direction of the loading tray, and the portion of the bracket located above the loading tray is provided with a first mounting structure, the first mounting structure being used for mounting and positioning the loading tray.

[0008] This application provides a cargo-carrying assembly including a cargo tray and a support.

[0009] When it is necessary to steam or cook food, place the food carrier into the pot of the cooking appliance, so that the first mounting structure of the support is assembled with the pot, and place the food on the food carrier plate to steam or cook the food on the food carrier plate.

[0010] It is understood that the bracket is connected to the tray, and at least a portion of the bracket is located above the tray along the thickness direction of the tray. The portion of the bracket above the tray has a first mounting structure for assembly with the pot body. That is, after the food carrier assembly is assembled with the pot body, the tray is suspended inside the pot body via the first mounting structure. The connection between the food carrier assembly and the pot body is located above the tray, and the tray is separated from the bottom of the pot body. The assembly of the food carrier assembly with the pot body is not limited by the flatness of the pot bottom, and the stability of the assembly is not limited by the flatness of the pot bottom. This avoids the tray tilting or even tipping over due to a non-planar pot bottom, ensuring the stability and reliability of the food carrier assembly, expanding its usability, and improving its performance and market competitiveness.

[0011] Understandably, the serving tray is suspended inside the pot via the first mounting structure, and the serving tray is separate from the bottom of the pot. Placing the food on the serving tray, compared to placing the food directly inside the pot, shortens the distance between the food and the opening of the pot, making it easier to pick up and put down the food, reducing the difficulty of retrieving food from the pot, and allowing the user to remove the food as a whole. Furthermore, since the connection between the serving component and the pot is located above the serving tray, and closer to the opening of the pot, meaning the connection is away from the heat source, it further enhances the convenience of removing the food.

[0012] It is understood that at least a portion of the support is located above the tray, that is, a part of the support is located above the tray, or the entire support is located above the tray.

[0013] In some technical solutions, the bracket is optionally rotatably connected to the tray, and the bracket can rotate relative to the tray to switch between a loading position and a storage position.

[0014] In this technical solution, the cooperation structure between the support and the tray is further defined.

[0015] The bracket is rotatably connected to the tray, allowing the bracket to rotate relative to the tray to switch between a loading position and a storage position.

[0016] When food needs to be steamed or cooked, rotate the support to the loading position and assemble the first mounting structure with the pot body.

[0017] When the food carrier is no longer needed, or after the food has been steamed or cooked, the stand can be rotated to the storage position to reduce the overall size of the food carrier, making it easier to store and enriching its functionality.

[0018] In some technical solutions, optionally, one end face of the tray along the thickness direction is the loading surface, and the bracket is rotatably connected to the loading surface.

[0019] In this technical solution, the cooperation structure between the loading tray and the support is further defined.

[0020] One side of the tray is the food-carrying surface, and the food is placed on the food-carrying surface.

[0021] Along the thickness direction of the tray, one end face of the tray serves as the food-carrying surface, and the support is rotatably connected to this surface. That is, along the thickness direction of the tray, the entire support is positioned above the tray, and the support can rotate relative to the food-carrying surface. This reduces the space occupied by the support between the tray and the pot body after assembly, minimizing the distance between the tray and the inner surface of the pot, thus ensuring the tray's volume and the amount of food it can hold. Because the distance between the tray and the inner surface of the pot is reduced, the probability of food falling into the pot through the gap between the tray and the pot body when placing or removing the tray is also reduced.

[0022] In some technical solutions, optionally, the bracket includes: a connecting section, the first end of which is rotatably connected to the loading surface, and the first end of which is spaced apart from the outer edge of the loading tray; a first connecting section, which is connected between the first mounting structure and the second end of the connecting section; when the bracket is in the loading position, the first mounting structure is separated from the loading surface, and the connecting section is closer to the loading surface than the first mounting structure; when the bracket is in the storage position, the bracket is stacked on one side of the loading surface.

[0023] In this technical solution, the bracket includes a connecting section, a first connecting section, and a first mounting structure. The first connecting section is connected between the first mounting structure and the second end of the connecting section, and the first end of the connecting section is rotatably connected to the load surface.

[0024] That is, the first connecting section and the first mounting structure can rotate relative to the load surface with the connecting section.

[0025] It is understandable that the first end of the connecting segment is spaced apart from the outer edge of the loading plate. That is, the rotational connection between the connecting segment and the loading surface is spaced apart from the outer edge of the loading plate. In other words, the rotational connection between the connecting segment and the loading surface is located inside the outer edge of the loading plate.

[0026] When the loading assembly is assembled with the pot body, that is, when the support is in the loading position, the first mounting structure is arranged separately from the loading surface. The connecting section is closer to the loading surface than the first mounting structure, and the first mounting structure is located above the loading surface in the thickness direction of the loading plate. The rotatable connection between the connecting section and the loading surface is located inside the outer edge of the loading plate, which can limit the rotation angle of the support.

[0027] When storing the load-bearing assembly, rotate the bracket to the storage position, and stack the bracket on one side of the load-bearing surface. This arrangement reduces the overall size of the load-bearing assembly, minimizes its space occupancy, and facilitates storage.

[0028] In some technical solutions, optionally, there are multiple supports, which are arranged at intervals along a first direction; the load-bearing assembly also includes at least one connecting frame, and any two adjacent supports are connected by the connecting frame.

[0029] In this technical solution, the food-carrying assembly also includes at least one connecting frame, and any two adjacent supports are connected through the connecting frame. That is, multiple supports are assembled into a whole through at least one connecting frame, and any one of the supports is connected to the food-carrying tray. The multiple supports and at least one connecting frame cooperate to support the food-carrying tray, and also cooperate to position the food-carrying tray. This arrangement increases the connection area and angle between the multiple supports and the food-carrying tray, as well as the cooperation area and angle between the food-carrying assembly and the pot body. It can support the food-carrying tray from multiple positions, ensuring the effectiveness and feasibility of the food-carrying tray in carrying food.

[0030] It is understandable that when there are multiple supports, each support has a first mounting structure for assembly with the pot body. Therefore, it can increase the mating area and mating angle with the pot body, and ensure the stability and reliability of the assembly between the load-bearing component and the pot body.

[0031] In addition, any two adjacent supports are connected by a connecting frame, which can ensure the matching dimensions of multiple supports, the connection position of multiple supports and the loading tray, and the matching position of multiple first mounting structures. This ensures the balance of force on multiple first mounting structures and the balance of force at the connection point of multiple supports and the loading tray when the loading component is assembled with the pot body, thus providing structural support for ensuring the stability and reliability of the loading component assembly.

[0032] In some technical solutions, optionally, the connecting frame includes: two second mounting structures, each second mounting structure being connected to a first mounting structure of a bracket, the shape of the second mounting structure being the same as the shape of the first mounting structure; and a second connecting section connecting the two second mounting structures.

[0033] In this technical solution, the structure of the connecting frame is defined.

[0034] The connecting frame includes two second mounting structures and a second connecting section, with the second connecting section connecting the two second mounting structures.

[0035] A connecting frame connects two supports, with each second mounting structure connected to a first mounting structure of one support. The shape of the second mounting structure is the same as that of the first mounting structure; that is, the assembly method between the second mounting structure and the pot body is the same as that between the first mounting structure and the pot body. This arrangement allows the connecting frame to not only assemble two adjacent supports into a single unit but also to assemble with the pot body. This design further increases the contact area between the food-carrying component and the pot body, enhances the structural strength and rigidity of the multiple support assembly, and thus improves the effectiveness and feasibility of the food-carrying tray in supporting food.

[0036] In addition, the shape of the second mounting structure is the same as that of the first mounting structure. This arrangement increases the mating area between the load-bearing component and the pot body, while simplifying the assembly difficulty of the first mounting structure, the second mounting structure and the pot body, which is conducive to improving the assembly and disassembly efficiency of the load-bearing component.

[0037] In some technical solutions, optionally, the outer edge of the tray includes a first edge and a second edge disposed opposite to each other, and a plurality of supports are located between the first edge and the second edge; along the first direction, the two outermost supports among the plurality of supports are respectively referred to as the first support and the second support, the first support is located between the first edge and the second support, and the distance from the first support to the first edge is not equal to the distance from the second support to the second edge.

[0038] In this technical solution, the cooperative structure of the loading tray and multiple supports is further defined.

[0039] The outer edge of the tray includes a first edge and a second edge, which are spaced apart along a first direction. Multiple supports are located between the first edge and the second edge.

[0040] Along the first direction, the two outermost supports among the multiple supports are referred to as the first support and the second support, respectively.

[0041] The first support is located between the first edge and the second support; conversely, the second support is located between the first support and the second edge. In other words, along the first direction, the first edge, the first support, the second support, and the second edge are arranged sequentially.

[0042] The distance from the first support to the first edge is denoted as d1. That is, the distance from the side of the first support facing the first edge to the first edge is denoted as d1.

[0043] The distance from the second support to the second edge is denoted as d2. That is, the distance from the side of the second support facing the second edge to the second edge is denoted as d2.

[0044] Where d1≠d2. That is, the connection between the first support and the tray is asymmetrically arranged with respect to the connection between the second support and the tray.

[0045] In this way, when multiple load-bearing components are assembled with the pot body with partitions, the first mounting structures of two adjacent load-bearing components are staggered, and there is no interference between two adjacent load-bearing components, so that multiple load-bearing components can be effectively assembled with the same partition.

[0046] In some technical solutions, the first mounting structure may optionally include any one or a combination of the following: a hook-on part, a snap-on part, and a magnetic part.

[0047] In this technical solution, the types of the first mounting structure are further defined.

[0048] The first mounting structure includes any one or a combination of the following: a hook-on part, a snap-on part, and a magnetic part.

[0049] When the first mounting structure includes a hook-on part, the hook-on part can be directly hung on the pot wall, or it can be directly hung on the side of the partition away from the bottom of the pot. In other words, the food carrier can be effectively assembled with the pot without changing the existing structure of the pot, which can reduce the production cost of cooking utensils.

[0050] When the first mounting structure includes a snap-fit ​​part, the pot body is provided with a first mating part, and the snap-fit ​​part and the first mating part are snap-fitted together, so that the first mounting structure can be snapped onto the pot body, which can meet the usage requirements of suspending the loading tray inside the pot body.

[0051] When the first mounting structure includes a magnetic part, the pot body is provided with a second mating part. The magnetic part and the second mating part are magnetically attracted to each other, so that the first mounting structure can be assembled onto the pot body by magnetic attraction, which can meet the usage requirements of suspending the loading tray inside the pot body.

[0052] In some technical solutions, optionally, the tray is provided with multiple ribs and multiple flow holes, the multiple ribs are arranged at intervals along the second direction, and multiple flow holes are provided between any two adjacent ribs; and / or the tray is provided with through holes for taking and placing the tray.

[0053] In this technical solution, the structure of the cargo tray is further defined.

[0054] When the tray has multiple ribs and multiple flow holes, multiple flow holes are provided between any two adjacent ribs. The medium can flow into the food above through the flow holes. For example, when steaming food, steam can flow into the food above through the flow holes. For example, when boiling food, water can flow into the food above through the flow holes.

[0055] In addition, multiple ribs are arranged at intervals along the second direction. The ribs support the food and separate the part of the tray between two adjacent ribs from the food. This provides spatial support for the medium to flow effectively to the food through the flow holes and provides structural support to ensure the cooking taste of the food.

[0056] When the tray has a through hole, users can put the tray in and take it out through the through hole, which enhances the convenience of disassembling and loading the components and meets the diverse needs of users.

[0057] The second aspect of this application provides a cooking appliance, comprising: a pot body; and a food carrier assembly as described in the first aspect, wherein a first mounting structure is detachably connected to the pot body, and a food carrier is suspended in the pot body via the first mounting structure.

[0058] The cooking appliance provided in this application includes the loading component as described in the first aspect, and therefore has all the beneficial effects of the aforementioned loading component, which will not be described in detail here.

[0059] Specifically, cooking utensils include the pot body and the container assembly.

[0060] When the loading component is assembled with the pot body, the first mounting structure is connected to the pot body, and the loading tray is suspended inside the pot body through the first mounting structure. The connection between the loading component and the pot body is located above the loading tray, and the loading tray is separated from the bottom of the pot body. The assembly of the loading component and the pot body is not limited by the flatness of the bottom of the pot body, and the stability of the loading component assembly is not limited by the flatness of the bottom of the pot body. This avoids the loading tray tilting or even tipping over due to the non-flat bottom of the pot body, ensuring the stability and reliability of the loading component assembly, expanding the adaptability of the loading component in use, and allowing the loading component to be used with different models of pot bodies, which is conducive to improving the performance and market competitiveness of the loading component.

[0061] Understandably, the first mounting structure is detachably connected to the pot body. This design ensures the reliability of the assembly between the food-carrying component and the pot body while facilitating cleaning and maintenance of both, reducing the possibility of bacterial growth. In other words, the food-carrying component can be separated from the pot body or assembled together with it, depending on actual usage needs. This design simplifies the assembly structure of the cooking appliance, simplifies the disassembly and assembly process, reduces the difficulty of disassembling the food-carrying component, and facilitates cleaning and subsequent repair and maintenance of the cooking appliance.

[0062] Understandably, the tray is suspended inside the pot body via the first mounting structure, meaning the tray is spaced apart from the bottom of the pot. The tray does not contact the bottom of the pot.

[0063] In some technical solutions, optionally, the first mounting structure is detachably connected to the pot wall of the pot body; or the pot body includes a pot body and a partition, the partition is located inside the pot body, the partition and the inner surface of the pot body enclose multiple cooking cavities, the first mounting structure is detachably connected to the partition, and the food tray is suspended inside the cooking cavity.

[0064] In this technical solution, the mating structure of the pot body and the loading assembly is defined.

[0065] The first mounting structure is detachably connected to the pot wall, meaning it connects directly to the pot wall to accommodate the suspended loading tray within the pot. The loading tray and the pot bottom are spaced apart, with a gap between them. The loading tray is suspended within the pot via the first mounting structure. The connection between the loading component and the pot body is located above the loading tray, separating it from the pot bottom. The assembly of the loading component and the pot body is not limited by the flatness of the pot bottom, and the stability of the assembly is not affected by the flatness of the pot bottom. This prevents the loading tray from tilting or even tipping over due to a non-planar pot bottom, ensuring the stability and reliability of the loading component assembly. This expands the adaptability of the loading component and improves its performance and market competitiveness.

[0066] Alternatively, the pot body includes a pot body and a partition, with the partition located within the pot body. The partition and the inner surface of the pot body enclose multiple cooking cavities. In other words, the partition divides the internal space of the pot body into multiple cooking cavities. When the food carrier assembly is assembled with the pot body, the first mounting structure is detachably connected to the partition to meet the usage requirements of suspending the food carrier within the cooking cavity. The food carrier is spaced apart from the bottom wall of the cooking cavity, with a gap between the food carrier and the bottom wall of the cooking cavity. The food tray is suspended inside the cooking cavity via the first mounting structure. The connection between the food carrier and the pot body is located above the food tray. The food tray is separated from the bottom wall of the cooking cavity. The assembly of the food carrier and the pot body is not limited by the flatness of the bottom wall of the cooking cavity. The stability of the food carrier assembly is not limited by the flatness of the bottom wall of the cooking cavity. This avoids the food tray tilting or even tipping over due to the non-planar bottom wall of the cooking cavity. It can ensure the stability and reliability of the food carrier assembly, expand the adaptability of the food carrier, and help improve the performance and market competitiveness of the food carrier.

[0067] In some technical solutions, optionally, there are multiple loading components. When the first mounting structure is detachably connected to the partition, the loading tray of each loading component is suspended in a cooking cavity through the first mounting structure, and the first mounting structures of two adjacent loading components are staggered.

[0068] In this technical solution, when the pot body includes the pot body and the partition, the pot body can be a dual-compartment pot, allowing for the cooking of different flavored ingredients in multiple cooking cavities. When the first mounting structure and the partition are detachably connected, the number of food-carrying components can match the number of cooking cavities, or the number of food-carrying components can be less than the number of cooking cavities. For example, there are two cooking cavities and two food-carrying components. Alternatively, there are three cooking cavities and two food-carrying components. Each food-carrying component is paired with one cooking cavity.

[0069] Each serving tray of a food container is suspended within a cooking cavity via a first mounting structure, with the first mounting structures of adjacent food containers staggered. This ensures that the first mounting structures of adjacent food containers do not interfere with each other, allowing multiple food containers to be effectively assembled with the same partition, thus guaranteeing the effective assembly dimensions of each cooking cavity and food container.

[0070] In some technical solutions, optionally, the second mounting structure of the loading assembly is detachably connected to the pot body.

[0071] In this technical solution, the second mounting structure of the food-carrying component has the same shape as the first mounting structure. The first mounting structure can be detachably connected to the pot body, and the second mounting structure can also be detachably connected to the pot body. The assembly method between the second mounting structure and the pot body is the same as the assembly method between the first mounting structure and the pot body. This arrangement can further increase the mating area between the food-carrying component and the pot body, enhance the structural strength and rigidity of the food-carrying component assembly, and thus improve the effectiveness and feasibility of the food-carrying tray in supporting food.

[0072] In some technical solutions, optionally, when the first mounting structure includes a hooking part, the hooking part is hooked to the open end of the pot body; when the first mounting structure includes a snap-fit ​​part, the pot body is provided with a first mating part, and the snap-fit ​​part snaps into the first mating part; when the first mounting structure includes a magnetic part, the pot body is provided with a second mating part, and the magnetic part and the second mating part are magnetically attracted to each other.

[0073] In this technical solution, the mating structure between the first mounting structure and the pot body is further defined.

[0074] When the first mounting structure includes a hook-on part, the hook-on part is hooked onto the open end of the pot body. For example, the hook-on part can be directly hooked onto the pot wall, or it can be directly hooked onto the side of the partition away from the bottom of the pot body. In other words, the food-carrying component can be effectively assembled with the pot body without changing the existing structure of the pot body, which can reduce the production cost of cooking utensils.

[0075] When the first mounting structure includes a snap-fit ​​part, the pot body is provided with a first mating part, and the snap-fit ​​part and the first mating part are snap-fitted together, so that the first mounting structure can be snapped onto the pot body, which can meet the usage requirements of suspending the loading tray inside the pot body.

[0076] When the first mounting structure includes a magnetic part, the pot body is provided with a second mating part. The magnetic part and the second mating part are magnetically attracted to each other, so that the first mounting structure can be assembled onto the pot body by magnetic attraction, which can meet the usage requirements of suspending the loading tray inside the pot body.

[0077] Additional aspects and advantages of this application will become apparent in the following description or may be learned by practice of this application. Attached Figure Description

[0078] The above and / or additional aspects and advantages of this application will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0079] Figure 1 A schematic diagram of the structure of a carrier assembly according to an embodiment of this application is shown;

[0080] Figure 2 A partial structural schematic diagram of a cooking appliance according to the first embodiment of this application is shown;

[0081] Figure 3 A schematic diagram of the first part of the cooking appliance according to the second embodiment of this application is shown;

[0082] Figure 4 A schematic diagram of the second part of the structure of the cooking appliance according to the second embodiment of this application is shown.

[0083] in, Figures 1 to 4 The correspondence between the reference numerals and component names in the attached drawings is as follows:

[0084] 10. Loading assembly, 100. Loading tray, 110. Loading surface, 120. First edge, 130. Second edge, 140. Rib, 150. Flow hole, 160. Through hole, 200. Bracket, 200a. First bracket, 200b. Second bracket, 210. Connecting section, 212. First end of connecting section, 214. Second end of connecting section, 220. First connecting section, 230. First mounting structure, 300. Connecting frame, 310. Second mounting structure, 320. Second connecting section, 400. Rotary shaft, 50. Cooking utensil, 500. Pot body, 510. Pot body, 520. Partition, 530. Cooking cavity. Detailed Implementation

[0085] To better understand the above-mentioned objectives, features, and advantages of this application, the application will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0086] Many specific details are set forth in the following description in order to provide a full understanding of this application. However, this application may also be implemented in other ways different from those described herein. Therefore, the scope of protection of this application is not limited to the specific embodiments disclosed below.

[0087] The following reference Figures 1 to 4 The present application describes a carrier assembly 10 and a cooking appliance 50 according to some embodiments.

[0088] like Figure 1 As shown, a cargo assembly 10 according to some embodiments of this application includes a cargo tray 100 and a support 200.

[0089] The bracket 200 is connected to the tray 100.

[0090] Along the thickness direction of the tray 100, at least a portion of the support 200 is located above the tray 100.

[0091] The portion of the bracket 200 located above the tray 100 is provided with a first mounting structure 230.

[0092] The first mounting structure 230 is used for mounting and positioning the tray 100.

[0093] The present application provides a cargo loading assembly 10, which includes a cargo tray 100 and a support 200.

[0094] When it is necessary to steam or cook food, place the food carrier 10 inside the pot body 500 of the cooking appliance 50, so that the first mounting structure 230 of the support 200 is assembled with the pot body 500, and place the food on the food carrier 100 to steam or cook the food on the food carrier 100.

[0095] It is understood that the bracket 200 is connected to the tray 100, and at least a portion of the bracket 200 is located above the tray 100 along the thickness direction of the tray 100. The portion of the bracket 200 located above the tray 100 is provided with a first mounting structure 230, which is used for assembly with the pot body 500. That is, after the loading component 10 is assembled with the pot body 500, the loading tray 100 is suspended inside the pot body 500 through the first mounting structure 230. The connection between the loading component 10 and the pot body 500 is located above the loading tray 100. The loading tray 100 is separated from the bottom of the pot body 500. The assembly of the loading component 10 and the pot body 500 is not limited by the flatness of the bottom of the pot body 500. The stability of the loading component 10 assembly is not limited by the flatness of the bottom of the pot. This avoids the situation where the loading tray 100 tilts or even falls over due to the non-flat bottom of the pot. It can ensure the stability and reliability of the loading component 10 assembly, expand the adaptability of the loading component 10 in use, and help improve the performance and market competitiveness of the loading component 10.

[0096] Understandably, the tray 100 is suspended inside the pot body 500 via the first mounting structure 230, and the tray 100 is separate from the bottom of the pot body 500. Placing the food on the tray 100, compared to placing the food directly inside the pot body 500, shortens the distance between the food and the opening of the pot body 500, making it easier to pick up and put down the food, reducing the difficulty of retrieving food from the pot body 500, and making it easier for the user to remove the food as a whole. Furthermore, since the connection between the food carrier component 10 and the pot body 500 is located above the tray 100, and the connection between the food carrier component 10 and the pot body 500 is closer to the opening of the pot body 500, that is, the connection between the carrier component and the pot body 500 is far away from the heat source, which further improves the convenience of removing the food.

[0097] It is understood that at least a portion of the support 200 is located above the tray 100, that is, a portion of the support 200 is located above the tray 100, or the entire support 200 is located above the tray 100.

[0098] For example, when the loading assembly 10 is assembled with the pot body 500 of the cooking appliance 50, the first mounting structure 230 is detachably connected to the pot wall of the pot body 500.

[0099] For example, the pot body 500 of the cooking appliance 50 includes a pot body 510 and a partition 520. The partition 520 is disposed inside the pot body 510 and divides the internal space of the pot body 510 into multiple cooking cavities 530. When cooking food in one of the multiple cooking cavities 530, the first mounting structure 230 of the food carrier 10 is detachably connected to the partition 520, and the food carrier tray 100 of the food carrier 10 is located inside the cooking cavity 530. When cooking food in multiple cooking cavities 530 simultaneously, the first mounting structure 230 of any one of the multiple food carrier assemblies 10 is detachably connected to the partition 520, and the food carrier tray 100 of each food carrier assembly 10 is located inside one cooking cavity 530.

[0100] In some embodiments, the support 200 is optionally rotatably connected to the tray 100.

[0101] The bracket 200 can rotate relative to the tray 100 to switch between a loading position and a storage position.

[0102] In this embodiment, the mating structure of the support 200 and the tray 100 is further defined.

[0103] The bracket 200 is rotatably connected to the tray 100, and the bracket 200 can rotate relative to the tray 100 to switch between a carrying position and a storage position.

[0104] When it is necessary to steam or cook food, the support 200 is rotated to the loading position, and the first mounting structure 230 is assembled with the pot body 500.

[0105] When the food carrier 10 is no longer needed, or after the food has been steamed or cooked, the support 200 can be rotated to the storage position to reduce the overall size of the food carrier 10, making it easier to store and enriching its functionality.

[0106] In some embodiments, optionally, such as Figure 1 As shown, along the thickness direction of the tray 100, one end face of the tray 100 is the tray surface 110.

[0107] The bracket 200 is rotatably connected to the load surface 110.

[0108] In this embodiment, the mating structure of the tray 100 and the support 200 is further defined.

[0109] One end face of the tray 100 is the food surface 110, on which the food is placed.

[0110] Along the thickness direction of the tray 100, one end face of the tray 100 is a loading surface 110, and the support 200 is rotatably connected to the loading surface 110. That is, along the thickness direction of the tray 100, the support 200 is located entirely above the tray 100, and the support 200 can rotate relative to the loading surface 110. In this way, when the loading component 10 is assembled with the pot body 500, the space occupied by the support 200 between the tray 100 and the pot body 500 can be reduced, which helps to reduce the distance between the inner surfaces of the tray 100 and the pot body 500, thus ensuring the volume of the tray 100 and the amount of food that can be carried on the tray 100. Because the distance between the inner surfaces of the tray 100 and the pot body 500 can be reduced, the probability of food falling into the pot body 500 through the gap between the loading component 10 and the pot body 500 when the loading component 10 is placed or removed from the pot body 500 can be reduced.

[0111] In some other embodiments, the support 200 is connected to the side of the tray 100.

[0112] In some other embodiments, the support 200 is connected to the side of the tray 100 opposite to the loading surface 110.

[0113] In some embodiments, optionally, such as Figure 1 As shown, the bracket 200 includes a connecting section 210, a first connecting section 220, and a first mounting structure 230.

[0114] The first end 212 of the connecting section is rotatably connected to the carrying surface 110.

[0115] The first end 212 of the connecting section is spaced apart from the outer edge of the tray 100.

[0116] The first connecting segment 220 is connected between the first mounting structure 230 and the second end 214 of the connecting segment.

[0117] When the bracket 200 is in the loading position, the first mounting structure 230 is arranged separately from the loading surface 110, and the connecting section 210 is closer to the loading surface 110 than the first mounting structure 230.

[0118] When the bracket 200 is in the storage position, the bracket 200 is stacked on one side of the load-bearing surface 110.

[0119] In this embodiment, the bracket 200 includes a connecting section 210, a first connecting section 220 and a first mounting structure 230. The first connecting section 220 is connected between the first mounting structure 230 and the second end 214 of the connecting section. The first end 212 of the connecting section is rotatably connected to the loading surface 110.

[0120] That is, the first connecting section 220 and the first mounting structure 230 can rotate relative to the load surface 110 with the connecting section 210.

[0121] It is understandable that the first end 212 of the connecting segment is arranged at a distance from the outer edge of the tray 100. That is, the rotatable connection between the connecting segment 210 and the tray 110 is arranged at a distance from the outer edge of the tray 100. In other words, the rotatable connection between the connecting segment 210 and the tray 110 is located inside the outer edge of the tray 100.

[0122] When the loading assembly 10 is assembled with the pot body 500, that is, when the support 200 is in the loading position, the first mounting structure 230 is separately arranged from the loading surface 110. The connecting section 210 is closer to the loading surface 110 than the first mounting structure 230. The first mounting structure 230 is located above the loading surface 110 in the thickness direction of the loading tray 100. The rotatable connection between the connecting section 210 and the loading surface 110 is located inside the outer edge of the loading tray 100, which can limit the rotation angle of the support 200.

[0123] When storing the cargo assembly 10, the bracket 200 is rotated to the storage position, and the bracket 200 is stacked on one side of the cargo surface 110. This arrangement can reduce the overall size of the cargo assembly 10, reduce the space occupied by the cargo assembly 10, and facilitate the storage of the cargo assembly 10.

[0124] For example, when the support 200 is in the loading position, the connecting section 210 abuts against the loading surface 110. This arrangement increases the contact area between the connecting section 210 and the loading surface 110, so that after the food is placed on the loading surface 110, the loading tray 100 can effectively abut against the support 200. This ensures the proper fit and position of the loading tray 100 and the pot body 500, preventing the loading tray 100 from tilting relative to the pot body 500 and ensuring the effectiveness and reliability of the food loading.

[0125] For example, after the food carrier assembly 10 is assembled with the pot body 500, the connecting section 210 abuts against the food carrier surface 110. This setting can limit the rotation angle of the support 200 relative to the food carrier 100, so that the support 200 cannot rotate further relative to the food carrier 100, and can ensure that the food carrier 100 can effectively carry the food.

[0126] For example, when the bracket 200 is in the stored position, the bracket 200 does not protrude beyond the outer edge of the tray 100 along the thickness direction perpendicular to the tray 100.

[0127] In some embodiments, the number of supports 200 may be multiple.

[0128] like Figure 1 As shown, multiple supports 200 are arranged at intervals along the first direction.

[0129] The cargo assembly 10 also includes at least one connecting frame 300.

[0130] Any two adjacent supports 200 are connected by a connecting frame 300.

[0131] In this embodiment, there are multiple supports 200, and the multiple supports 200 are arranged at intervals along the first direction.

[0132] The food-carrying assembly 10 also includes at least one connecting frame 300, through which any two adjacent supports 200 are connected. That is, multiple supports 200 are assembled into a single unit via at least one connecting frame 300, and any one of the supports 200 is connected to the food-carrying tray 100. The multiple supports 200 and at least one connecting frame 300 cooperate to support the food-carrying tray 100, and also cooperate to position the food-carrying tray 100. This arrangement increases the connection area and angle between the multiple supports 200 and the food-carrying tray 100, as well as the mating area and angle between the food-carrying assembly 10 and the pot body 500. It can support the food-carrying tray 100 from multiple positions, ensuring the effectiveness and feasibility of the food-carrying tray 100 in carrying food.

[0133] It is understandable that when there are multiple supports 200, each support 200 has a first mounting structure 230 that is assembled with the pot body 500. Therefore, the mating area and mating angle with the pot body 500 can be increased, which can ensure the stability and reliability of the assembly of the loading component 10 with the pot body 500.

[0134] In addition, any two adjacent supports 200 are connected by a connecting frame 300, which can ensure the matching dimensions of multiple supports 200, the connection position of multiple supports 200 with the loading tray 100, and the matching position of multiple first mounting structures 230. This ensures the balance of force on multiple first mounting structures 230 and the balance of force at the connection point between multiple supports 200 and the loading tray 100 when the loading component 10 is assembled with the pot body 500, thus providing structural support for ensuring the stability and reliability of the loading component 10 assembly.

[0135] In some embodiments, optionally, such as Figure 1 As shown, the connecting frame 300 includes two second mounting structures 310 and a second connecting section 320.

[0136] Each second mounting structure 310 is connected to a first mounting structure 230 of a bracket 200.

[0137] The shape of the second mounting structure 310 is the same as that of the first mounting structure 230.

[0138] The second connecting section 320 connects the two second mounting structures 310.

[0139] In this embodiment, the structure of the connecting frame 300 is defined.

[0140] The connecting frame 300 includes two second mounting structures 310 and a second connecting section 320, the second connecting section 320 being connected between the two second mounting structures 310.

[0141] A connecting frame 300 connects two supports 200, and each second mounting structure 310 is connected to a first mounting structure 230 of a support 200. The shape of the second mounting structure 310 is the same as that of the first mounting structure 230; that is, the assembly method of the second mounting structure 310 and the pot body 500 is the same as the assembly method of the first mounting structure 230 and the pot body 500. This arrangement allows the connecting frame 300 to not only assemble two adjacent supports 200 into a whole, but also to assemble with the pot body 500. This arrangement can further increase the mating area between the loading component 10 and the pot body 500, enhance the structural strength and rigidity of the assembly of multiple supports 200, and thus improve the effectiveness and feasibility of the loading tray 100 in carrying food.

[0142] In addition, the shape of the second mounting structure 310 is the same as that of the first mounting structure 230. This arrangement increases the mating area between the loading component 10 and the pot body 500, while simplifying the assembly difficulty of the first mounting structure 230, the second mounting structure 310 and the pot body 500, which is conducive to improving the assembly and disassembly efficiency of the loading component 10.

[0143] In some embodiments, the outer edge of the tray 100 may optionally include a first edge 120 and a second edge 130 disposed opposite to each other.

[0144] Multiple supports 200 are located between the first edge 120 and the second edge 130.

[0145] like Figure 1 and Figure 2 As shown, along the first direction, the two outermost supports 200 among the multiple supports 200 are respectively referred to as the first support 200a and the second support 200b.

[0146] The first support 200a is located between the first edge 120 and the second support 200b.

[0147] The distance from the first support 200a to the first edge 120 is not equal to the distance from the second support 200b to the second edge 130.

[0148] In this embodiment, the mating structure of the tray 100 and the plurality of supports 200 is further defined.

[0149] The outer edge of the tray 100 includes a first edge 120 and a second edge 130, which are spaced apart along a first direction. A plurality of supports 200 are located between the first edge 120 and the second edge 130.

[0150] Along the first direction, the two outermost supports 200 among the plurality of supports 200 are respectively referred to as the first support 200a and the second support 200b.

[0151] The first support 200a is located between the first edge 120 and the second support 200b. Alternatively, the second support 200b is located between the first support 200a and the second edge 130. In other words, along the first direction, the first edge 120, the first support 200a, the second support 200b, and the second edge 130 are arranged sequentially.

[0152] The distance from the first support 200a to the first edge 120 is denoted as d1. That is, the distance from the side of the first support 200a facing the first edge 120 to the first edge 120 is denoted as d1.

[0153] The distance from the second support 200b to the second edge 130 is denoted as d2. That is, the distance from the side of the second support 200b facing the second edge 130 to the second edge 130 is denoted as d2.

[0154] Wherein, d1≠d2. That is, the connection between the first support 200a and the tray 100 is asymmetrically arranged with the connection between the second support 200b and the tray 100.

[0155] In this way, when multiple load-carrying components 10 are assembled with the pot body 500 having the partition 520, the first mounting structures 230 of two adjacent load-carrying components 10 are staggered, and there is no interference between two adjacent load-carrying components 10, so that multiple load-carrying components 10 can be effectively assembled with the same partition 520.

[0156] In some embodiments, the first mounting structure 230 may optionally include any one or a combination of the following: a hook-on portion, a snap-on portion, and a magnetic portion.

[0157] In this embodiment, the type of the first mounting structure 230 is further defined.

[0158] The first mounting structure 230 includes any one or a combination of the following: a hook-on part, a snap-on part, and a magnetic part.

[0159] When the first mounting structure 230 includes a hook-on part, the hook-on part can be directly hung on the pot wall of the pot body 500, or the hook-on part can be directly hung on the side of the partition 520 away from the bottom of the pot body 500. In other words, the food carrier 10 can be effectively assembled with the pot body 500 without changing the existing structure of the pot body 500, which can reduce the production cost of the cooking utensil 50.

[0160] When the first mounting structure 230 includes a snap-fit ​​part, the pot body 500 is provided with a first mating part, and the snap-fit ​​part and the first mating part are snap-fitted together, so that the first mounting structure 230 can be snapped onto the pot body 500, which can meet the usage requirements of the loading tray 100 being suspended inside the pot body 500.

[0161] When the first mounting structure 230 includes a magnetic part, the pot body 500 is provided with a second mating part. The magnetic part and the second mating part are magnetically attracted to each other, so that the first mounting structure 230 can be assembled on the pot body 500 by magnetic attraction, which can meet the usage requirements of the tray 100 being suspended in the pot body 500.

[0162] In some embodiments, optionally, such as Figure 1 As shown, the tray 100 is provided with multiple ribs 140 and multiple flow holes 150.

[0163] Multiple ribs 140 are arranged at intervals along the second direction.

[0164] Multiple flow holes 150 are provided between any two adjacent ribs 140.

[0165] And / or the tray 100 is provided with a through hole 160 for taking out and putting in the tray 100.

[0166] In this embodiment, the structure of the tray 100 is further defined.

[0167] When the tray 100 is provided with multiple ribs 140 and multiple flow holes 150, multiple flow holes 150 are provided between any two adjacent ribs 140. The medium can flow into the food area above through the flow holes 150. For example, when steaming food, steam can flow into the food area above through the flow holes 150. For example, when boiling food, water can flow into the food area above through the flow holes 150.

[0168] In addition, multiple ribs 140 are arranged at intervals along the second direction. The ribs 140 have the function of supporting the food, so that the part of the tray 100 between two adjacent ribs 140 is separated from the food. In this way, spatial support is provided for the medium to flow effectively to the food through the flow hole 150, and structural support is provided to ensure the cooking taste of the food.

[0169] When the tray 100 is provided with a through hole 160, the user can take the tray 100 out through the through hole 160, thereby enhancing the convenience of disassembling and reassembling the loading and unloading assembly 10 and meeting the diverse usage needs of the user.

[0170] like Figure 2 , Figure 3 and Figure 4 As shown, a cooking appliance 50 according to some embodiments of this application includes a pot body 500 and a loading assembly 10 of any of the above embodiments.

[0171] The first mounting structure 230 can be detachably connected to the pot body 500.

[0172] The tray 100 is suspended inside the pot body 500 via the first mounting structure 230.

[0173] The cooking appliance 50 provided in this application includes the loading component 10 as described in any of the above embodiments, and therefore has all the beneficial effects of the loading component 10, which will not be described in detail here.

[0174] Specifically, the cooking appliance 50 includes a pot body 500 and a serving assembly 10.

[0175] When the loading component 10 is assembled with the pot body 500, the first mounting structure 230 is connected to the pot body 500, and the loading tray 100 is suspended inside the pot body 500 through the first mounting structure 230. The connection between the loading component 10 and the pot body 500 is located above the loading tray 100. The loading tray 100 is separated from the bottom of the pot body 500. The assembly of the loading component 10 and the pot body 500 is not limited by the flatness of the bottom of the pot body 500. The stability of the loading component 10 assembly is not limited by the flatness of the bottom of the pot, avoiding the situation where the loading tray 100 tilts or even falls over due to the non-planar bottom of the pot. This ensures the stability and reliability of the loading component 10 assembly, expands the applicability of the loading component 10, and allows the loading component 10 to be used with different models of pot bodies 500, which is conducive to improving the performance and market competitiveness of the loading component 10.

[0176] Understandably, the first mounting structure 230 is detachably connected to the pot body 500. This arrangement ensures the reliability of the assembly between the food carrier component 10 and the pot body 500 while facilitating cleaning and maintenance of both components, reducing the possibility of bacterial growth. In other words, the food carrier component 10 can be separated from the pot body 500 or assembled together as needed. This arrangement simplifies the assembly structure of the cooking appliance 50, simplifies the disassembly and assembly process, reduces the difficulty of disassembling and assembling the food carrier component 10, and facilitates cleaning and subsequent repair and maintenance of the cooking appliance 50.

[0177] It is understood that the tray 100 is suspended inside the pot body 500 via the first mounting structure 230, that is, the tray 100 is spaced apart from the bottom of the pot body 500. The tray 100 does not contact the bottom of the pot body 500.

[0178] In some embodiments, the first mounting structure 230 may be detachably connected to the pot wall of the pot body 500.

[0179] Or such as Figure 2 , Figure 3 and Figure 4 As shown, the pot body 500 includes a pot body 510 and a partition 520. The partition 520 is disposed inside the pot body 510. The partition 520 and the inner surface of the pot body 510 enclose a plurality of cooking cavities 530. The first mounting structure 230 is detachably connected to the partition 520. The tray 100 is suspended inside the cooking cavity 530.

[0180] In this embodiment, the mating structure of the pot body 500 and the loading assembly 10 is defined.

[0181] The first mounting structure 230 is detachably connected to the pot wall of the pot body 500, that is, the first mounting structure 230 is directly connected to the pot wall of the pot body 500 to meet the usage requirements of the loading tray 100 being suspended inside the pot body 500. The loading tray 100 and the bottom of the pot body 500 are arranged at intervals, and there is a gap between the loading tray 100 and the bottom of the pot body 500. The tray 100 is suspended inside the pot body 500 via the first mounting structure 230. The connection between the loading component 10 and the pot body 500 is located above the tray 100. The tray 100 is separated from the bottom of the pot body 500. The assembly of the loading component 10 and the pot body 500 is not limited by the flatness of the bottom of the pot body 500. The stability of the loading component 10 assembly is not limited by the flatness of the bottom of the pot, thus avoiding the situation where the tray 100 tilts or even falls over due to the non-flat bottom of the pot. This ensures the stability and reliability of the loading component 10 assembly, expands the adaptability of the loading component 10 in use, and helps to improve the performance and market competitiveness of the loading component 10.

[0182] Alternatively, the pot body 500 includes a pot body 510 and a partition 520. The partition 520 is disposed inside the pot body 510, and the partition 520 and the inner surface of the pot body 510 enclose multiple cooking cavities 530. That is, the partition 520 divides the internal space of the pot body 510 into multiple cooking cavities 530. When the food carrier assembly 10 is assembled with the pot body 500, the first mounting structure 230 and the partition 520 are detachably connected to meet the usage requirements of the food carrier tray 100 being suspended in the cooking cavity 530. The food carrier tray 100 and the bottom wall of the cooking cavity 530 are spaced apart, and there is a gap between the food carrier tray 100 and the bottom wall of the cooking cavity 530. The tray 100 is suspended inside the cooking cavity 530 via the first mounting structure 230. The connection between the loading component 10 and the pot body 500 is located above the tray 100. The tray 100 is separated from the bottom wall of the cooking cavity 530. The assembly of the loading component 10 and the pot body 500 is not limited by the flatness of the bottom wall of the cooking cavity 530. The stability of the loading component 10 assembly is not limited by the flatness of the bottom wall of the cooking cavity 530. This avoids the situation where the tray 100 tilts or even falls over due to the non-planar bottom wall of the cooking cavity 530. This ensures the stability and reliability of the loading component 10 assembly, expands the applicability of the loading component 10, and helps to improve the performance and market competitiveness of the loading component 10.

[0183] In some embodiments, the number of cargo-carrying components 10 may be multiple.

[0184] When the first mounting structure 230 is detachably connected to the partition 520, the tray 100 of each loading assembly 10 is suspended in a cooking cavity 530 via the first mounting structure 230.

[0185] The first mounting structures 230 of two adjacent load-bearing components 10 are staggered.

[0186] In this embodiment, when the pot body 500 includes a pot body 510 and a partition 520, the pot body 500 can be a dual-compartment pot, allowing different flavored ingredients to be cooked in multiple cooking cavities 530. When the first mounting structure 230 and the partition 520 are detachably connected, the number of the carrying components 10 can match the number of cooking cavities 530, or the number of carrying components 10 can be less than the number of cooking cavities 530. For example, there are two cooking cavities 530 and two carrying components 10. Alternatively, there are three cooking cavities 530 and two carrying components 10. Each carrying component 10 is paired with one cooking cavity 530.

[0187] Each food container 10's tray 100 is suspended within a cooking cavity 530 via a first mounting structure 230, with the first mounting structures 230 of adjacent food containers 10 staggered. That is, the first mounting structures 230 of adjacent food containers 10 will not interfere with each other, allowing multiple food containers 10 to be effectively assembled with the same partition 520, ensuring the effective assembly dimensions of each cooking cavity 530 and tray 100.

[0188] In some embodiments, the second mounting structure 310 of the loading assembly 10 may be detachably connected to the pot body 500.

[0189] In this embodiment, the second mounting structure 310 of the food-carrying assembly 10 has the same shape as the first mounting structure 230. The first mounting structure 230 can be detachably connected to the pot body 500, and the second mounting structure 310 can also be detachably connected to the pot body 500. The assembly method of the second mounting structure 310 and the pot body 500 is the same as the assembly method of the first mounting structure 230 and the pot body 500. This arrangement can further increase the mating area between the food-carrying assembly 10 and the pot body 500, enhance the structural strength and rigidity of the food-carrying assembly 10, and thus improve the effectiveness and feasibility of the food-carrying tray 100 in carrying food.

[0190] For example, when the first mounting structure 230 includes a hook-on portion, the second mounting structure 310 also includes a hook-on portion.

[0191] For example, when the first mounting structure 230 includes a snap-fit ​​portion, the second mounting structure 310 also includes a snap-fit ​​portion.

[0192] For example, when the first mounting structure 230 includes a magnetic part, the second mounting structure 310 also includes a magnetic part.

[0193] In some embodiments, optionally, when the first mounting structure 230 includes a hook portion, the hook portion is hooked to the open end of the pot body 500.

[0194] When the first mounting structure 230 includes a snap-fit ​​part, the pot body 500 is provided with a first mating part, and the snap-fit ​​part snaps into the first mating part.

[0195] When the first mounting structure 230 includes a magnetic part, the pot body 500 is provided with a second mating part, and the magnetic part and the second mating part are magnetically attracted to each other.

[0196] In this embodiment, the mating structure between the first mounting structure 230 and the pot body 500 is further defined.

[0197] When the first mounting structure 230 includes a hook-on portion, the hook-on portion is hooked onto the open end of the pot body 500. For example, the hook-on portion can be directly hooked onto the pot wall of the pot body 500, or it can be directly hooked onto the side of the partition 520 away from the bottom of the pot body 500. In other words, the food carrier 10 can be effectively assembled with the pot body 500 without changing the existing structure of the pot body 500, which can reduce the production cost of the cooking utensil 50.

[0198] When the first mounting structure 230 includes a snap-fit ​​part, the pot body 500 is provided with a first mating part, and the snap-fit ​​part and the first mating part are snap-fitted together, so that the first mounting structure 230 can be snapped onto the pot body 500, which can meet the usage requirements of the loading tray 100 being suspended inside the pot body 500.

[0199] When the first mounting structure 230 includes a magnetic part, the pot body 500 is provided with a second mating part. The magnetic part and the second mating part are magnetically attracted to each other, so that the first mounting structure 230 can be assembled on the pot body 500 by magnetic attraction, which can meet the usage requirements of the tray 100 being suspended in the pot body 500.

[0200] For example, the magnetic part includes any one or a combination of the following: samarium cobalt magnet, ferrite magnet, neodymium iron boron magnet and alnico magnet.

[0201] For example, the second mating part includes any one or a combination of the following: samarium cobalt magnet, ferrite magnet, neodymium iron boron magnet and alnico magnet.

[0202] For example, the second mating part is a metal part, which includes at least one of iron, cobalt and nickel.

[0203] For example, one of the snap-fit ​​portion and the first mating portion is a snap-fit, and the other is a snap-slot.

[0204] For example, one of the snap-fit ​​portion and the first mating portion is an elastic protrusion, and the other is a snap-fit ​​hole.

[0205] For example, the attachment part is a hook, or the attachment part is a hanging groove.

[0206] For example, taking the pot body 500 as a divided pot, the first mounting structure 230 of the food carrier 10 includes a hanging part. For example, the food carrier 10 is used in conjunction with the divided pot. Using the divider 520 of the divided pot, the food tray 100 is suspended on the divider 520 by the bracket 200, so that the placement of the food tray 100 is not limited by the flatness of the bottom of the pot.

[0207] For example, the cooking appliance 50 includes a divided pot and a serving assembly 10. The divided pot includes a pot body 510 and a partition 520. The divided pot can support the serving assembly 10. The partition 520 serves as a support for the hook of the bracket 200. The serving tray 100 serves to hold food, such as a steaming tray. The bracket 200 connects the steaming tray and the divided pot to achieve a hanging function. The serving assembly 10 also includes a pivot 400, through which the bracket 200 and the serving tray 100 are rotatably connected to achieve a folding function of the serving assembly 10. The hook of the bracket 200 is hooked onto the partition 520 of the divided pot.

[0208] For example, there are two pivots 400 and two supports 200, each support 200 being rotatably connected to the tray 100 via a pivot 400. The positions of the two pivots 400 are asymmetrical, causing the supports 200 to be arranged off-center. When the two food containers 10 are placed in the hot pot at the same time, the supports 200 of the two food containers 10 can be staggered and will not interfere with each other.

[0209] For example, the shape of the tray 100 can be adapted to the shape of the pot body 500. The shape of the tray 100 includes, but is not limited to, rectangles, circles, and polygons. The shape of the tray 100 can also be irregular, which refers to an irregularly shaped structure.

[0210] In this application, the term "multiple" refers to two or more unless otherwise expressly defined. The terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; "linking" can be a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0211] In the description of this specification, the terms "one embodiment," "some embodiments," "specific embodiment," etc., refer to a specific feature, structure, material, or characteristic described in connection with that embodiment or example, which is included in at least one embodiment or example of this application. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. The above descriptions are merely preferred embodiments of this application and are not intended to limit this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A cargo-carrying assembly, characterized in that, include: Storage tray; A bracket is connected to the tray. At least a portion of the bracket is located above the tray along the thickness direction of the tray. The portion of the bracket located above the tray is provided with a first mounting structure, which is used for mounting and positioning the tray.

2. The cargo-carrying assembly according to claim 1, characterized in that, The bracket is rotatably connected to the tray, and the bracket can rotate relative to the tray to switch between a loading position and a storage position.

3. The cargo-carrying assembly according to claim 2, characterized in that, Along the thickness direction of the tray, one side end face of the tray is the loading surface, and the bracket is rotatably connected to the loading surface.

4. The cargo-carrying assembly according to claim 3, characterized in that, The support includes: A connecting segment, the first end of which is rotatably connected to the loading surface, and the first end of which is spaced apart from the outer edge of the loading disk; A first connecting segment is connected between the first mounting structure and the second end of the connecting segment; When the bracket is in the loading position, the first mounting structure is arranged separately from the loading surface, and the connecting section is closer to the loading surface than the first mounting structure; When the bracket is in the storage position, the bracket is stacked on one side of the load-bearing surface.

5. The cargo-carrying assembly according to any one of claims 1 to 4, characterized in that, The number of brackets is multiple, and the multiple brackets are arranged at intervals along the first direction; The load-carrying assembly also includes at least one connecting frame, through which any two adjacent supports are connected.

6. The cargo-carrying assembly according to claim 5, characterized in that, The connecting frame includes: Two second mounting structures, each of which is connected to a first mounting structure of the bracket, wherein the shape of the second mounting structure is the same as that of the first mounting structure; The second connecting section connects the two second mounting structures.

7. The cargo-carrying assembly according to claim 5, characterized in that, The outer edge of the tray includes a first edge and a second edge that are disposed opposite to each other, and the plurality of brackets are located between the first edge and the second edge; Along the first direction, the two outermost supports among the plurality of supports are respectively referred to as the first support and the second support. The first support is located between the first edge and the second support, and the distance from the first support to the first edge is not equal to the distance from the second support to the second edge.

8. The cargo-carrying assembly according to any one of claims 1 to 4, characterized in that, The first mounting structure includes any one or a combination of the following: a hook-on part, a snap-on part, and a magnetic part.

9. The cargo-carrying assembly according to any one of claims 1 to 4, characterized in that, The loading tray is provided with multiple ribs and multiple flow holes, the multiple ribs are arranged at intervals along the second direction, and multiple flow holes are provided between any two adjacent ribs; and / or The tray is provided with a through hole for taking out and putting in the tray.

10. A cooking utensil, characterized in that, include: Pot body; and The loading assembly as described in any one of claims 1 to 9, wherein the first mounting structure is detachably connected to the pot body, and the loading tray is suspended inside the pot body via the first mounting structure.

11. The cooking utensil according to claim 10, characterized in that, The first mounting structure is detachably connected to the pot wall of the pot body; or The pot body includes a pot body and a partition. The partition is disposed in the pot body. The partition and the inner surface of the pot body enclose a plurality of cooking cavities. The first mounting structure is detachably connected to the partition. The food tray is suspended in the cooking cavity.

12. The cooking utensil according to claim 11, characterized in that, The number of the loading components is multiple. When the first mounting structure is detachably connected to the partition, the loading tray of each loading component is suspended in one of the cooking cavities through the first mounting structure, and the first mounting structures of two adjacent loading components are staggered.

13. The cooking utensil according to any one of claims 10 to 12, characterized in that, The second mounting structure of the loading assembly is detachably connected to the pot body.

14. The cooking utensil according to any one of claims 10 to 12, characterized in that, When the first mounting structure includes a hook-on part, the hook-on part is hooked onto the open end of the pot body; When the first mounting structure includes a snap-fit ​​part, the pot body is provided with a first mating part, and the snap-fit ​​part snaps into the first mating part; When the first mounting structure includes a magnetic part, the pot body is provided with a second mating part, and the magnetic part and the second mating part are magnetically attracted to each other.

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