CN219940310U - Pot body and cooking utensil - Google Patents

Abstract

The utility model discloses a cooker body and a cooking utensil, wherein the cooker body comprises an inner pot, a heat-insulating ring and a side coil assembly, the heat-insulating ring and the side coil assembly are positioned at the side part of the inner pot, the side coil assembly is arranged below the heat-insulating ring and comprises an annular side support, the upper end of the side support is partially overlapped with the lower end of the heat-insulating ring in the horizontal direction, the side support and the heat-insulating ring are formed into an integral component at the partially overlapped part, one of the heat-insulating ring and the side support is provided with a fixing part, the other one of the heat-insulating ring and the side support is provided with a groove part, and the fixing part is integrally connected in the groove part. According to the utility model, the integrated component formed by the side support and the heat preservation ring can be assembled into the cooker body, and the integrated component can be directly connected with the adjacent components positioned below and above during assembly, so that repeated positioning between the side support and the heat preservation ring is omitted during assembly, and mounting offset between the side support and the heat preservation ring and adjacent components are avoided.

Description

Pot body and cooking utensil

Technical Field

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

Background

Existing cooking appliances such as IH rice cookers are provided with coils to heat the inner pot using electromagnetic waves. Some cooking appliances provide coils at the bottom and sides of the inner pot. The side of the inner pot is usually provided with a side support, a side coil is wound on the side support, the bottom of the inner pot is usually provided with a coil disc, and a bottom coil is wound on the coil disc. In order to avoid heat dissipation of the inner pot, a heat-insulating ring is generally arranged on the side part of the inner pot.

The heat preservation ring and the side support are two independent components, and when the heat preservation ring is assembled, the two independent components are required to be positioned and connected, and then the heat preservation ring and the side support are positioned and connected with the coil panel. The three independent components need to be repeatedly positioned when being connected with each other, the positioning processes are mutually influenced, the installation deviation is easy, the assembly efficiency is low, and the assembly operation is complex.

Accordingly, there is a need for a pot and a cooking appliance that at least partially address the above problems.

Disclosure of Invention

A series of concepts in a simplified form are introduced in the summary of the utility model, which will be described in further detail in the detailed description. The summary of the utility model is not intended to limit the critical and essential features of the claimed subject matter, nor is it intended to be used to determine the scope of the claimed subject matter.

In order to solve at least in part the above problems, the present utility model provides a cooker body for a cooking appliance, comprising:

an inner pot;

the heat preservation ring is positioned at the side part of the inner pot; and

the side coil assembly is positioned at the side part of the inner pot and used for heating the side part of the inner pot, is arranged below the heat preservation ring and comprises an annular side support, and the upper end of the side support is partially overlapped with the lower end of the heat preservation ring in the horizontal direction;

the side support and the heat preservation ring are formed into an integral component at a part overlapping part, one of the heat preservation ring and the side support is provided with a fixing part extending along the vertical direction, the other of the heat preservation ring and the side support is provided with a groove part, and the fixing part is integrally connected in the groove part.

According to the scheme, the integrated component formed by the side support and the heat preservation ring can be assembled into the cooker body, and can be directly connected with the adjacent components positioned below and above during assembly, repeated positioning between the side support and the heat preservation ring is omitted during assembly, and mounting offset between the side support and the heat preservation ring and adjacent components are avoided. Therefore, the assembly efficiency is improved, the assembly operation is simplified, and the assembled structure is more stable and reliable.

Through setting up the slot-shaped portion, can increase the structural strength of the connection portion of moulding plastics between lateral part support and the heat preservation circle two, restrict each other in horizontal direction and in vertical direction, improve connection structure's steadiness, avoid breaking away from at the junction of moulding plastics.

Optionally, one of the fixing portion and the groove portion is provided with a fixing protrusion at a distance, and the fixing protrusion is embedded in the other of the fixing portion and the groove portion.

According to the scheme, when the plastic is injected, the heat preservation ring and the side support are sequentially molded into the first molding part and the second molding part, the first molding part is provided with the fixing protrusions, the materials for forming the second molding part can be coated on the peripheries of the fixing protrusions, and after the molding, the fixing protrusions are embedded in the second molding part to form a mutually nested connecting structure. Therefore, the structural strength of the two molding parts at the injection joint can be improved, and the connection is more stable and reliable.

Alternatively, the fixing protrusion is provided to a side surface of the one of the fixing portion and the groove portion extending in the vertical direction.

According to this scheme, can form mutually nested connection structure on the side surface for restrict each other in vertical direction, further improve connection structure's steadiness, further avoid breaking away from at the junction of moulding plastics.

Optionally, the fixing protrusions are disposed at intervals and uniformly along a circumferential direction of the one of the fixing portion and the groove portion, and/or the fixing protrusions are disposed at intervals along a vertical direction.

According to the present solution, it is possible to form mutually nested connection structures at a plurality of circumferential positions of the fixing portion and the groove portion, and to form a relatively complex nesting structure at each circumferential position.

Optionally, a dimension L1 of the fixing portion in the vertical direction is 2 mm+.l1+.10mm, and/or a protruding dimension L2 of the fixing protrusion is 1 mm+.l2+.3mm.

According to this scheme, rationally set up fixed part and fixed bellied size, can further improve the structural strength of these two shaping parts in the junction of moulding plastics, further make the connection more firm reliable.

Optionally, the lower end of the heat preservation ring is provided with the groove-shaped part with a downward opening, the upper end of the side support is provided with the fixing part, and the fixing parts are provided with the fixing protrusions at intervals.

According to the scheme, the groove-shaped part at the lower end of the heat preservation ring can limit the side support in the horizontal direction and in the vertical direction, separation at the injection molding connection part is avoided, the fixing protrusion is arranged at the fixing part with a relatively simple structure, and the production and the manufacturing can be facilitated.

Optionally, the fixing protrusion is provided on an inward facing side surface of the fixing portion;

according to the present solution, in the solution in which the fixing portion is provided in the side bracket, a better connection stability can be achieved by forming mutually nested connection structures on the side surface facing the inside.

And/or the fixing part protrudes out of the end face of the side support and is positioned outside the end face, and the groove-shaped part is connected with the end face.

According to this scheme, can make the interior surface alignment of lateral part support and heat preservation circle, and lateral part support links to each other with the heat preservation circle in terminal surface department and makes both restrict each other in vertical direction, further improves connection structure's steadiness.

Optionally, the side support is wholly or partially transparent or translucent, and the heat-insulating ring is wholly non-transparent.

According to this scheme, transparent or semitransparent lateral part support can be with the heat of follow interior pot outside radiation towards interior pot reflection, can improve the heat preservation effect to interior pot from this, guarantees that the rice taste of the inboard portion department of pot is better to can also have visual effect, when taking out interior pot, the user can observe the lateral part coil from lateral part support easily, is favorable to the user to know the structure of product, promotes user's experience and feels.

Optionally, the cooker body further includes a bottom coil assembly, the bottom coil assembly is located at the bottom of the inner pot and is used for heating the bottom of the inner pot, and the bottom coil assembly includes a coil panel, and the coil panel is detachably connected with the side support.

According to the scheme, the integral component formed by the heat preservation ring and the side support can be directly assembled to the coil panel, and the side support can be detached from the coil panel, so that the coil panel is convenient to replace and maintain respectively.

According to another aspect of the present utility model, there is provided a cooking appliance including a cover and the pot according to any one of the above aspects, the cover being openably and closably provided to the pot to form a cooking space between the cover and the pot.

Drawings

The following drawings are included to provide an understanding of the utility model and are incorporated in and constitute a part of this specification. Embodiments of the present utility model and their description are shown in the drawings to explain the principles of the utility model.

In the accompanying drawings:

FIG. 1 is a cross-sectional view of a portion of a pot according to a preferred embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a portion of the internal structure of the pot shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a cross-sectional view of the side coil assembly and insulation ring shown in FIG. 1;

FIG. 5 is an enlarged view of portion B of FIG. 4;

fig. 6 is a perspective view of the side bracket shown in fig. 5.

Reference numerals illustrate:

1 pot body 2 inner pot

3 base 4 shell

5 middle plate 6 mounting groove

10 bottom coil assembly 11 coil disc

12 bottom coil 13 step

20 side coil assembly 21 side bracket

22 side coil 23 baffle portion

24 wire clamping part 25 supporting part

26 winding buckle 30 insulating ring

41 fixing portion 42 fixing projection

43 groove 50 power panel assembly

51 power panel 52 power support

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

In the following description, a detailed description will be given for the purpose of thoroughly understanding the present utility model. It will be apparent that embodiments of the utility model may be practiced without limitation to the specific details that are familiar to those skilled in the art. Preferred embodiments of the present utility model are described in detail below, however, the present utility model may have other embodiments in addition to these detailed descriptions.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present utility model. As used herein, the singular is intended to include the plural unless the context clearly indicates otherwise. Furthermore, it will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

Ordinal numbers such as "first" and "second" cited in the present utility model are merely identifiers and do not have any other meaning, such as a particular order or the like. Also, for example, the term "first component" does not itself connote the presence of "second component" and the term "second component" does not itself connote the presence of "first component".

It should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "inner", "outer", and the like are used herein for illustrative purposes only and are not limiting.

Exemplary embodiments according to the present utility model will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be appreciated that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of these exemplary embodiments to those skilled in the art.

The utility model provides a cooking appliance, which comprises a pot body 1 (shown in figure 1) and a cover body. The pot body 1 has a cylindrical inner pot accommodating part. The inner pot 2 can be fixedly arranged at the inner pot containing part, or can be freely placed in the inner pot containing part or taken out from the inner pot containing part, so that the inner pot 2 can be conveniently cleaned. The inner pot 2 is typically made of a metal material and has a circular opening in its upper surface for holding the material to be heated, such as rice, soup, etc. The pot body 1 includes a heating device for heating the inner pot 2 to heat the inner pot 2.

It is understood that the cooking appliance according to the present utility model may be an electric rice cooker, an electric pressure cooker or other cooking appliances, and the cooking appliance may have various functions of cooking porridge or the like in addition to the function of cooking rice.

The cover has a shape substantially corresponding to the pot 1. The cover body is openably and closably arranged on the cooker body 1, in particular, is pivoted to the cooker body 1 through a pivot shaft, and can freely pivot between a covering position and an opening position relative to the cooker body 1 around the pivot axis where the pivot shaft is located, so as to facilitate covering and opening of the cooker body 1. When the cover body is covered on the cooker body 1, the cover body covers the inner cooker 2 and forms a cooking space between the inner cooker 2. The lid also typically has a port seal, which may be made of, for example, a rubber material, disposed between the lid and the inner pot 2 for sealing the cooking space when the lid is in the closed condition.

As shown in fig. 1, the pot body 1 may include a base 3, a housing 4 disposed above the base 3, and a middle plate 5 disposed inside the housing 4. The middle plate 5 is located above the housing 4. The housing 4 is located between the middle plate 5 and the base 3 and may connect the outer periphery of the middle plate 5 and the outer periphery of the base 3 together. The middle plate 5 may be connected to the base 3 by fasteners such as screws. Specifically, the middle plate 5 may be provided with mounting posts extending downward at intervals, and the base 3 may be provided with screw posts extending upward at intervals. The mounting posts vertically correspond to the screw posts, and screws pass through the screw posts and are screwed into the mounting posts to connect the middle plate 5 with the base 3.

It should be noted that directional terms used herein to describe the various components, portions, etc. of the pot 1, such as "upper", "lower", "above", "below", "upward", "downward", etc., are relative to the pot 1 in a horizontally disposed and upright state. The directional terms "inwardly", "outwardly", "inside", "outside" and the like, unless otherwise limited, refer to "inside" as being closer to the center of the body 1 and "outside" as being farther from the center of the body 1.

The pot 1 further comprises a bottom coil assembly 10 and a side coil assembly 20, which serve as heating means. The bottom coil assembly 10 is disposed above the base 3 and at the bottom or underside of the inner pan 2 for heating the bottom of the inner pan 2. The side coil assembly 20 is provided inside the housing 4 and at the side or outside of the inner pan 2 for heating the side of the inner pan 2. Specifically, both the bottom coil assembly 10 and the side coil assembly 20 are capable of heating the inner pan 2 using the electromagnetic heating principle after being energized. Thus, the cooking appliance of the present utility model is also called an electromagnetic cooking appliance or an IH cooking appliance.

The pot 1 further comprises a power panel assembly 50. The power panel assembly 50 is provided at the rear end of the pot body 1, and outside of the side coil assembly 20. The power panel assembly 50 can be electrically connected to both the bottom coil assembly 10 and the side coil assembly 20 to supply power to the bottom coil assembly 10 and the side coil assembly 20. Specifically, the power board assembly 50 includes a power board 51 and a power bracket 52. The power panel 51 is provided to the base 3 via a power supply bracket 52.

The bottom coil assembly 10 may include a coil disk 11 and a bottom coil 12. The coil disc 11 is located at the bottom of the inner pot 2, and the bottom coil 12 can be arranged on the outer side of the coil disc 11 facing away from the inner pot 2 for heating the bottom of the inner pot 2. The bottom coil 12 may be circumferentially disposed to the coil disk 11 in the circumferential direction. The coil disk 11 may be constructed as a disk-shaped member having a concave structure, at least the bottom of the inner pan 2 being located within the coil disk 11. The bottom coil 12 has two lead terminals. Both lead terminals can be connected to the power supply board 51 to achieve electrical connection of the bottom coil 12.

The side coil assembly 20 may include a side bracket 21 and a side coil 22. The side support 21 is located at the bottom of the inner pan 2, and the side coil 22 can be arranged at the side of the side support 21 facing away from the inner pan 2 for heating the side of the inner pan 2. Specifically, the side bracket 21 may be configured as an annular member, and the side coil 22 is circumferentially provided to the side bracket 21 in the circumferential direction. The inner pan 2 is positioned in the side bracket 21. The side coil 22 has two lead terminals. Both lead terminals can be connected to the power supply board 51 to achieve electrical connection of the side coils 22.

The pot body 1 also comprises a heat preservation ring 30. The heat insulating ring 30 can be provided outside the inner pan 2 and at a side portion of the inner pan 2. The heat preservation ring 30 is arranged above the side support 21, the upper end of the side support 21 can be connected with the heat preservation ring 30, and the lower end of the side support 21 can be connected with the coil panel 11. The heat retainer 30 is integrally constructed to be non-transparent.

The side brackets 21 may be wholly or partially constructed to be transparent or translucent. That is, the side brackets 21 may be entirely transparent or translucent, or may be partially transparent or translucent. Wherein in embodiments in which the side bracket 21 is partially transparent or translucent, a portion of the side bracket 21 is made of a transparent material.

With this embodiment, the transparent or semitransparent side bracket 21 can reflect the heat radiated outwards from the inner pot 2 toward the inner pot 2, thereby improving the heat preservation effect on the inner pot 2, ensuring better taste of cooked rice at the inner part of the pot, and also having a visual effect, when taking out the inner pot 2, the user can easily observe the side coil 22 from the side bracket 21, which is beneficial to the user to understand the structure of the product and promote the experience of the user.

The side coils 22 may be wound in at least one of a single layer, a double layer, and a multiple layer to form a single layer coil, a double layer coil, a multiple layer coil, or a combination of these layers. The side coil 22 may include an enamel wire and an outer covering that wraps the enamel wire. The overwrap may be an outer adhesive shell, an outer adhesive tape, or the like. The overwrap is an insulating member and is configured as a transparent or translucent member. Further, the material of the outer wrapping piece is an insulating material and can be a proper material such as transparent plastic or semitransparent plastic. The outer wrapping member is transparent, so that the outer wrapping member also has an effect of reflecting heat, and can reflect the heat radiated outwards from the inner pot 2 toward the inner pot 2, thereby further improving the heat preservation effect on the inner pot 2.

Enamelled wires may be members that exhibit metallic luster. For example, the enamel wire may exhibit any suitable metallic luster such as gold, etc. When the inner pot 2 is taken out, a user can easily observe that the enameled wire presents metallic luster from the side support 21, the visual impression of the product is good, and the experience of the user is improved.

As shown in fig. 1, the middle plate 5 may be provided with a mounting groove 6 with a downward opening, and the upper end of the heat insulation ring 30 may be formed with a protruding rib extending upward, and the protruding rib is inserted into the mounting groove 6.

As shown in fig. 2 and 3, the heat insulating ring 30 and the side brackets 21 may be constructed as an integral member. Specifically, the upper end of the side bracket 21 can be partially overlapped with the lower end of the heat insulation ring 30 in the horizontal direction, and the side bracket 21 is molded as an integral member with the heat insulation ring 30 at the partially overlapped portion by the two-shot molding. The overlapped portions of the upper ends of the side brackets 21 and the lower ends of the insulation rings 30 are connected by injection molding. According to the scheme, the integrated member formed by the side support 21 and the heat preservation ring 30 can be assembled into the cooker body 1, and the integrated member can be directly connected with adjacent components positioned below and above, particularly with the middle plate 5 and the coil panel 11 during assembly, repeated positioning between the side support 21 and the heat preservation ring 30 is omitted during assembly, and mounting offset between the side support 21 and the heat preservation ring 30 and mounting offset between the adjacent components are avoided. Therefore, the assembly efficiency is improved, the assembly operation is simplified, and the assembled structure is more stable and reliable.

As shown in fig. 4 and 5, one of the heat insulating ring 30 and the side bracket 21 is provided with a fixing portion 41 extending in the vertical direction, and the other of the heat insulating ring 30 and the side bracket 21 is provided with a groove portion 43. The fixing portion 41 can be integrally connected within the groove portion 43. It should be noted that "extending in the vertical direction" herein is not limited to extending in parallel with the vertical direction, but also extends in an inclined manner with respect to the vertical direction.

Specifically, in the injection molding order, one of the heat insulating ring 30 and the side bracket 21 is first molded into a first molded part, and the other of the heat insulating ring 30 and the side bracket 21 is then molded into a second molded part, which is injection molded on the basis of the first molded part. As shown in fig. 4 and 5, the first molding member may be provided with a fixing portion 41 extending in the vertical direction. The second molding member may be formed with a groove portion 43, and the fixing portion 41 is coupled in the groove portion 43. By providing the groove-shaped portion 43, the structural strength of the injection-molded connection portion between the side bracket 21 and the heat-insulating ring 30 can be increased, and the two portions are mutually restricted in the horizontal direction and in the vertical direction, so that the stability of the connection structure is improved, and detachment at the injection-molded connection portion is avoided. The fixing portion 41 is annular, and the groove portion 43 is also annular.

One of the fixing portion 41 and the groove portion 43 may be provided with a fixing protrusion 42 at a spacing, and the fixing protrusion 42 is embedded in the other one of the fixing portion 41 and the groove portion 43. In injection molding, the first molding member is provided with a fixing protrusion 42, and a material for forming the second molding member may be coated around the fixing protrusion 42, and after molding, the fixing protrusion 42 is embedded in the second molding member to form a mutually nested connection structure. Therefore, the structural strength of the two molding parts at the injection joint can be improved, and the connection is more stable and reliable.

The fixing protrusion 42 may be provided to a side surface of the one of the fixing portion 41 and the groove portion 43 extending in the vertical direction. The fixing protrusions 42 may be spaced and uniformly disposed along the circumferential direction of the one of the fixing portion 41 and the groove portion 43. That is, the fixing projections 42 are provided on the side surface of the first molding member extending in the vertical direction, and are disposed at intervals and uniformly in the circumferential direction of the first molding member.

In the illustrated embodiment, the side brackets 21 are first molded members and the heat retainer 30 is a second molded member. Firstly, the side support 21 with a relatively complex structure is injection molded, and then the heat preservation ring 30 with a relatively simple structure is injection molded on the basis of the side support 21, so that the secondary injection molding efficiency can be improved. The upper end of the side bracket 21 is formed with a fixing portion 41, and the fixing portion 41 is firmly connected with the lower end of the heat insulation ring 30 through a fixing protrusion 42. The upper ends of the side brackets 21 and the lower ends of the heat preservation rings 30 form a mutually nested connecting structure. The lower end of the insulation ring 30 may be formed with a groove portion 43 opened downward, and the fixing portion 41 extends upward and is coupled in the groove portion 43. Specifically, the upper surface, the inward-facing side surface, and the outward-facing side surface of the fixing portion 41 are all connected to the corresponding portions of the groove-shaped portion 43. The groove 43 at the lower end of the heat retainer 30 can restrict the side brackets 21 in the horizontal direction and in the vertical direction, avoiding detachment at the injection-molded joint.

The fixing protrusion 42 may be provided at a side surface of the fixing portion 41 extending in the vertical direction. In the embodiment in which the fixing portion 41 is provided to the side bracket 21, the fixing protrusion 42 may be provided to an inward-facing side surface of the fixing portion 41, but of course, alternatively, the fixing protrusion 42 may be provided to an outward-facing side surface of the fixing portion 41. This scheme can form mutually nested connection structure on the side surface for restrict each other in vertical direction, further improve connection structure's steadiness, further avoid breaking away from at the junction of moulding plastics.

As shown in fig. 6, the illustrated embodiment shows that the upper end of the side bracket 21 is provided with fixing projections 42 that are spaced apart in the circumferential direction and uniformly arranged. Referring to fig. 5, the fixing protrusions 42 may be disposed at intervals in the vertical direction, and the number may be two or more. That is, one set of the fixing projections 42 is formed in the vertical direction, and a plurality of sets of the fixing projections 42 are formed in the circumferential direction. Thus, a mutually nested connection structure can be formed at a plurality of circumferential positions of the fixing portion 41 and the groove-shaped portion 43, and a relatively complex nested structure can be formed at each circumferential position.

The dimension L1 of the fixing portion 41 in the vertical direction is 2 mm.ltoreq.L1.ltoreq.10mm, and for example, the dimension L1 may be any value of 2mm, 3mm, 4mm, 5mm, 6mm, 7mm, 8mm, 9mm, 10mm, or the like. The protruding dimension L2 of the fixing projection 42 is 1 mm.ltoreq.L2.ltoreq.3mm, and for example, the dimension L2 may be any value of 1mm, 1.5mm, 2mm, 2.5mm, 3mm, etc. The sizes of the fixing part 41 and the fixing protrusion 42 are reasonably set, so that the structural strength of the two forming parts at the injection joint can be further improved, and the connection is further stable and reliable.

For the illustrated embodiment, the fixing portion 41 may protrude from the end surface F1 of the side bracket 21, and be located outside the end surface F1, and the groove portion 43 may be connected to the end surface F1. Thereby, the side brackets 21 can be aligned with the inner surface of the heat insulating ring 30, and the side brackets 21 and the heat insulating ring 30 are connected at the end face F1 so that they are mutually restrained in the vertical direction, further improving the stability of the connection structure. The outer side portion of the groove-shaped portion 43 protrudes from the outer surface of the side bracket 21 and abuts against the top of the side coil 22. Thereby, by means of the groove-shaped portion 43, the upward movement of the side coil 22 can be restricted, and the side coil 22 can be prevented from loosening.

As shown in fig. 2 and 3, the lower end of the side bracket 21 can abut against the coil disk 11 in the vertical direction. In this way, the coil disk 11 can support the side bracket 21 upward, and the side bracket 21 can be restrained from moving downward with respect to the coil disk 11. Specifically, the lower end of the side bracket 21 may be provided with an annular abutment 25, which abutment 25 extends in the vertical direction and is recessed radially inward. The coil panel 11 has a stepped portion 13 facing inward at the tip end. The stepped portion 13 may have a ring shape. The abutting portion 25 is located inside the step portion 13, and further, the abutting portion 25 is limited and abuts against the step portion 13. The stepped portion 13 may abut against the top of the abutment portion 25. The side support 21 and the coil panel 11 can be abutted and fixed with each other in the radial direction and the vertical direction, and the movement of the side support 21 in the vertical direction and the horizontal direction is limited, so that the side support 21 is firmly and reliably arranged in the cooker body 1.

Alternatively, the lower end of the side bracket 21 may be further provided with baffle portions 23, and the baffle portions 23 may be spaced and uniformly disposed along the circumferential direction of the side bracket 21. The step portion 13 is located between the abutting portion 25 and the baffle portion 23, and further restricts the movement of the side bracket 21 in the horizontal direction with respect to the coil disk 11 by means of the baffle portion 23, ensuring a stable and reliable mounting structure.

Referring to fig. 6, the side bracket 21 may be provided with a plurality of winding buttons 26. The plurality of winding buckles 26 are arranged at intervals around the side bracket 21, for example, at equal intervals. The bottom end of the winding button 26 is connected to the side bracket 21, specifically, to the bottom of the side bracket 21. A slot with an upward opening is formed between the winding buckle 26 and the side bracket 21, and further, the winding buckle 26 may have an L-shaped structure. The side coils 22 can be located in the card slots. Thus, the side coil 22 can be firmly and reliably attached to the side bracket 21 without being detached from the side bracket 21.

The upper end of the side bracket 21 may also be provided with a wire catching portion 24 protruding outward. After the winding of the side coil 22 is completed, the lead wire thereof can be caught by the catching portion 24, and the lead wire is fixed. Illustratively, the wire clamping portion 24 is an outwardly extending U-shaped structure.

To facilitate installation of the side coil 22, referring back to fig. 5, at least one of the top of the wire-winding button 26 and the outer portion of the slot 43 may be provided with a guide surface F2 facing the slot. The illustrated embodiment schematically shows that both the top of the winding button 26 and the outer part of the slot 43 are provided with guide surfaces F2, the guide surfaces F2 of both facing each other. Thereby, an installation entrance of the side coil 22 is formed between the top of the bobbin 26 and the outer side portion of the groove-shaped portion 43, and the guide surface F2 at the installation entrance facilitates the entry of the side coil 22 into the card slot.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model pertains. The terminology used herein is for the purpose of describing particular implementations only and is not intended to be limiting of the utility model. Features described herein in one embodiment may be applied to another embodiment alone or in combination with other features unless the features are not applicable or otherwise indicated in the other embodiment.

The present utility model has been described by way of the above embodiments, but it should be understood that the above embodiments are for illustrative and explanatory purposes only and that the utility model is not limited to the above embodiments, but is capable of numerous variations and modifications in accordance with the teachings of the utility model, all of which fall within the scope of the utility model as claimed.

Claims (10)

1. A pot for a cooking appliance, comprising:

an inner pot;

the heat preservation ring is positioned at the side part of the inner pot; and

the side coil assembly is positioned at the side part of the inner pot and used for heating the side part of the inner pot, is arranged below the heat preservation ring and comprises an annular side support, and the upper end of the side support is partially overlapped with the lower end of the heat preservation ring in the horizontal direction;

the side support and the heat preservation ring are formed into an integral component at a part overlapping part, one of the heat preservation ring and the side support is provided with a fixing part extending along the vertical direction, the other of the heat preservation ring and the side support is provided with a groove part, and the fixing part is integrally connected in the groove part.

2. The pot of claim 1, wherein one of the fixing portion and the groove portion is provided with a fixing protrusion at a distance, and the fixing protrusion is embedded in the other of the fixing portion and the groove portion.

3. The cooker body according to claim 2, wherein the fixing protrusion is provided to a side surface of the one of the fixing portion and the groove portion extending in a vertical direction.

4. The pot according to claim 3, wherein the fixing protrusions are disposed at intervals and uniformly in a circumferential direction of the one of the fixing portion and the groove portion, and/or the fixing protrusions are disposed at intervals in a vertical direction.

5. The pot according to claim 2, wherein the dimension L1 of the fixing portion in the vertical direction is 2 mm.ltoreq.l1.ltoreq.10mm, and/or the protruding dimension L2 of the fixing protrusion is 1 mm.ltoreq.l2.ltoreq.3mm.

6. The pot according to claim 2, wherein the lower end of the heat-insulating ring is formed with the groove-shaped portion having a downward opening, the upper end of the side support is formed with the fixing portion, and the fixing portion is provided with the fixing protrusions at intervals.

7. The pot of claim 6, wherein the pot comprises a plurality of cooking chambers,

the fixing protrusion is arranged on the side surface of the fixing part facing the inner side; and/or

The fixing part protrudes out of the end face of the side support and is positioned outside the end face, and the groove-shaped part is connected with the end face.

8. The pot of any one of claims 1 to 7, wherein the side support is wholly or partially constructed to be transparent or translucent and the heat retaining collar is wholly constructed to be non-transparent.

9. The pot of any one of claims 1 to 7, further comprising a bottom coil assembly located at the bottom of the inner pot for heating the bottom of the inner pot, the bottom coil assembly comprising a coil disc removably connected with the side support.

10. A cooking appliance characterized by comprising a lid and a pot according to any one of claims 1 to 9, the lid being openably and closably provided to the pot to form a cooking space between the lid and the pot.