CN220512695U - Stirring assembly, stirring device and cooking equipment - Google Patents

Abstract

The application discloses stirring subassembly, agitating unit and cooking equipment, stirring subassembly includes connecting unit and stirring unit. The first end of the connecting unit is provided with a limiting piece; the stirring unit is rotatably connected with the first end of the connecting unit through a fastener, and the rotation range of the stirring unit is limited by the limiting piece, wherein the first end of the connecting unit is provided with a tail end along the direction facing the stirring unit, and the distance between the fastener and the tail end is smaller than the distance between the limiting piece and the tail end. According to the stirring assembly, the stirring unit is rotatably connected with the connecting unit through the fastening piece, so that the stirring unit can adaptively adjust the angle according to the stirring track during stirring. And the distance between the fastener and the tail end of the connecting unit is smaller than the distance between the limiting piece and the tail end of the connecting unit, so that the stirring unit can be closer to the tail end of the connecting unit, the connecting unit forms a longer force arm, and the driving force required for driving the stirring unit to rotate is reduced.

Description

Stirring assembly, stirring device and cooking equipment

Technical Field

The application relates to the technical field of cooking, and more particularly relates to a stirring assembly, a stirring device and cooking equipment.

Background

With the development of modern technology, automatic cooking equipment such as a cooker is developed, and people can conveniently and simply realize complex cooking processes such as stir-frying, braising, stewing and the like by operating the cooker.

At present, the cooking devices on the market often have stirring devices so as to stir and process food materials by adopting the stirring devices, so that the food materials are uniformly mixed and heated. However, the angle of the stirring unit of the stirring device is often not adjustable, and the stirring unit can only stir the food along a fixed rotation track. If the rotation locus of the stirring unit is changed by adjusting the setting of the stirring device, it is difficult to adapt to the new rotation locus after the adjustment since the angle of the stirring unit is only matched with the old rotation locus.

Disclosure of Invention

The application provides a stirring subassembly, agitating unit and cooking equipment.

The stirring assembly of the embodiment of the application comprises a connecting unit and a stirring unit. A first end of the connecting unit is provided with a limiting piece; the stirring unit is rotatably connected with the first end of the connecting unit through a fastener, and the rotation range of the stirring unit is limited by the limiting piece, wherein the first end of the connecting unit is provided with a tail end along the direction facing the stirring unit, and the distance between the fastener and the tail end is smaller than the distance between the limiting piece and the tail end.

In some embodiments, the limiting member includes two limiting protrusions spaced apart from each other and respectively limiting the rotation of the stirring unit at two extreme positions.

In some embodiments, the two extreme positions of rotation of the stirring unit are on the same side of the two limit protrusions.

In some embodiments, the position of at least one of the limit protrusions is adjustable such that the separation distance between two of the limit protrusions is adjustable.

In some embodiments, the limiting member includes a limiting protrusion, and opposite ends of the limiting protrusion are respectively used for limiting two limit positions of rotation of the stirring unit.

In certain embodiments, the stirring unit comprises a loading element and a stirring element. The loading piece comprises a loading part and a matching part arranged on the loading part; the stirring piece comprises a stirring part and a clamping part arranged on the stirring part, wherein the clamping part is used for being tightly matched with the matching part, so that the stirring piece is detachably arranged on the loading piece, and the clamping part can deform to release the matching between the clamping part and the matching part.

In some embodiments, the loading member includes two mutually spaced matching portions, the stirring member includes two mutually spaced engaging portions, the two engaging portions correspond to the two matching portions respectively, and the two engaging portions extend into a gap between the two matching portions and are tightly engaged with the corresponding matching portions.

In some embodiments, the stirring piece comprises two mutually spaced clamping portions, the matching portion is located in a gap between the two clamping portions, and the two clamping portions are tightly clamped with the matching portion.

In some embodiments, the loading piece comprises two mutually-spaced matching parts, the clamping part comprises a first sub-part and a second sub-part which are connected, the first sub-part stretches into a gap between the two matching parts and is in close contact with the two matching parts, and two ends of the second sub-part are in close clamping connection with the two matching parts.

In some embodiments, the loading part is provided with a first limiting part, and the stirring part is provided with a second limiting part, and the second limiting part is matched with the first limiting part so as to limit the relative position between the loading part and the stirring part.

In some embodiments, the loading portion is provided with a groove, the stirring piece is at least partially accommodated in the groove, and the bottom end of the stirring portion protrudes relative to the bottom end of the loading portion.

In some embodiments, the stirring unit further comprises a decorative piece mounted to the loading portion, the stirring piece being located between the decorative piece and the loading piece.

The embodiment of the application also provides a stirring device, the stirring device comprises a driving component, the stirring component and a transmission component, wherein the stirring component and the transmission component are in any one of the embodiments, the transmission component is connected with the driving component and the stirring component, and the transmission component is used for transmitting the power of the driving component to the stirring component so as to enable the stirring component to rotate.

The embodiment of the application also provides cooking equipment, which comprises a stirring device and a turnover device. The stirring device comprises a driving assembly, the stirring assembly and a transmission assembly. The turning device is connected with the stirring device and used for driving the stirring device to turn over.

According to the stirring assembly, the stirring unit is rotatably connected with the connecting unit through the fastening piece, so that the stirring unit can adaptively adjust the angle according to the stirring track during stirring. And the distance between the fastener and the tail end of the connecting unit is smaller than the distance between the limiting piece and the tail end of the connecting unit, so that the stirring unit can be closer to the tail end of the connecting unit, the connecting unit forms a longer force arm, and the driving force required for driving the stirring unit to rotate is reduced.

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

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic perspective view of a stirring assembly according to certain embodiments of the present application;

FIG. 2 is a schematic perspective view of a connection unit of a stirring assembly according to certain embodiments of the present application;

FIG. 3 is a schematic perspective view of a stirring assembly according to certain embodiments of the present application;

FIG. 4 is a schematic perspective view of a stirring assembly according to certain embodiments of the present application;

FIG. 5 is a perspective exploded view of a stirring assembly according to certain embodiments of the present application;

FIG. 6 is a schematic perspective exploded view of a stirring unit of a stirring assembly according to certain embodiments of the present application;

FIG. 7 is a schematic perspective view of a stirring unit of a stirring assembly according to certain embodiments of the present application;

FIG. 8 is a schematic perspective view of a stirring unit of a stirring assembly according to certain embodiments of the present application;

FIG. 9 is a schematic perspective view of a stirring unit of a stirring assembly according to certain embodiments of the present application;

FIG. 10 is a schematic perspective view of a stirring assembly according to certain embodiments of the present application;

FIG. 11 is a schematic perspective view of a stirring device according to certain embodiments of the present application;

FIG. 12 is a schematic view of a stirring device according to certain embodiments of the present application;

fig. 13 is a schematic perspective assembly view of a cooking apparatus according to certain embodiments of the present application.

Description of main reference numerals:

100. the stirring assembly, 10, the connecting unit, 11, the limiting piece, 111 and the limiting bulge; 20. a stirring unit 21, a loading piece 211, a loading part 2111, a first limiting part 212 and a matching part; 22. stirring pieces 221, stirring parts 2211 and second limiting parts; 222. an engaging portion 2221, a first sub-portion 2222, and a second sub-portion; 23. a decoration piece; 30. a fastener;

1000. 200 parts of stirring device, 300 parts of driving component, 400 parts of transmission component and a pot body;

10000. cooking equipment 2000, turning device, A1, the pivot.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the embodiments of the present application and are not to be construed as limiting the embodiments of the present application.

In the description of the present application, it should be understood that the terms "thickness," "upper," "top," "bottom," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. And the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and may be fixedly connected, or detachably connected, or integrally connected, in one example; may be mechanically or electrically connected, or may be in communication with each other; either directly or indirectly through intermediaries, may be in communication with each other between two elements or in an interaction relationship between the two elements.

Referring to fig. 1 and 2, the present application provides a stirring assembly 100, and the stirring assembly 100 includes a connection unit 10 and a stirring unit 20. The first end 101 of the connection unit 10 is provided with a restriction member 11; the stirring unit 20 is rotatably connected to the first end of the connection unit 10 by a fastener 30, and the rotation range of the stirring unit 20 is limited by the limiting member 11, wherein the first end 101 of the connection unit 10 has a distal end 102 in a direction toward the stirring unit 20, and a distance between the fastener 30 and the distal end 102 is smaller than a distance between the limiting member 11 and the distal end 102.

The connection unit 10 is a structure for connecting the stirring unit 20 with other structures. For example, the second end 103 of the connection unit 10 is connected to a transmission assembly 300 (as shown in fig. 11), and the transmission assembly 300 can rotate the connection unit 10, so that the stirring unit 20 connected to the connection unit 10 rotates along with the connection unit 10.

The stirring unit 20 can stir the food material while rotating following the connection unit 10. The stirring unit 20 is rotatably connected to the connection unit 10 by a fastener 30, and the fastener 30 may be a bolt, a pin, or the like, without limitation. As shown in fig. 1, the stirring unit 20 is rotatably connected to the connection unit 10 such that the stirring unit 20 can be rotated in the w1 direction or the w2 direction about the fastener 30 with respect to the first end 101 of the connection unit 10. When the stirring unit 20 stirs food in the pot 400 (shown in fig. 13), the stirring trace of the stirring unit 20 may pass through the bottom wall, the side wall, or the connection between the bottom wall and the side wall of the pot 400, and the positions may have different radians. Because the stirring unit 20 can rotate relative to the first end 101 of the connection unit 10, the angle of the stirring unit 20 relative to the pan body 400 can be adaptively adjusted when passing through the positions of different radians of the pan body 400, so that stirring can be performed at the positions of different radians of the pan body 400.

The angle of the stirring unit in the prior art relative to the pot body is not adjustable, and the stirring unit cannot adapt to the positions with different radians for stirring. For example, the stirring track of a stirring unit in the prior art can only stir to the bottom wall of the pot bottom, if the stirring track of the stirring unit is changed, the stirring unit can stir to the side wall of the pot body, and then the angle of the stirring unit is not matched with the radian of the side wall of the pot body due to the fact that the angle of the stirring unit is not adjustable, so that collision between the stirring unit and the pot body can be caused.

Compared with the stirring unit in the prior art, the stirring unit 20 can rotate relative to the connecting unit 10 to adjust the angle relative to the pot body 400, so that the angle relative to the pot body 400 can be adaptively adjusted when passing through different positions of the radian of the pot body 400, and collision between the pot body 400 is avoided. Further, the stirring unit 20 of the present application can be rotated with respect to the connection unit 10, and the stirring width of the stirring unit 20 can be increased to more sufficiently stir the food material.

The first end 101 of the connection unit 10 of the present application is provided with a limiting member 11, and when the stirring unit 20 rotates relative to the connection unit 10 at the first end 101 of the connection unit 10 (for example, rotates in the w1/w2 direction), the limiting member 11 can limit the rotation range of the stirring unit 20, so as to avoid that the stirring unit 20 excessively rotates relative to the connection unit 10 and cannot stir food.

Wherein, the stirring unit 20 is spaced from the limiting piece 11, and rotation of the stirring unit 20 relative to the connecting unit 10 along a certain direction gradually brings a part of the stirring unit 20 close to the limiting piece 11, and when a part of the stirring unit 20 approaches to abut against the limiting piece 11, continued rotation of the stirring unit 20 along the direction is limited by blocking of the limiting piece 11. The smaller the interval between the stirring unit 20 and the restriction 11 is, the shorter the stirring unit 20 rotates to a stroke against the restriction 11, and the smaller the rotation range of the stirring unit 20 is, the easier it is to avoid that food cannot be stirred due to excessive rotation of the stirring unit 20; the larger the interval between the stirring unit 20 and the restriction 11 is, the shorter the stroke of the stirring unit 20 rotating against the restriction 11 is, the larger the rotation range of the stirring unit 20 is, and the larger the angle range of the adaptable pot 400 of the stirring unit 20 is.

As shown in fig. 1, the first end 101 of the connection unit 10 has a tip 102 in a direction toward the stirring unit 20, and the tip 102 of the connection unit 10 is an end of the connection unit 10 closer to the inner wall of the pot 400 (shown in fig. 13) when the stirring unit 20 stirs food. As shown in fig. 2, the fastener 30 has a distance a from the end 102 of the connection unit 10, and the limiter 11 has a distance b from the end 102 of the connection unit 10, wherein the distance a is smaller than the distance b. That is, the fastener 30 is closer to the end 102 of the connection unit 10 than the limiter 11. Thus, in one aspect, the limiter 11 is disposed on a side of the fastener 30 facing away from the end 102 of the connection unit 10, with sufficient space for the limiter 11 to be disposed such that the limiter 11 is spaced from the stirring unit 20 a sufficient distance to provide the stirring unit 20 with a sufficient range of rotation; on the other hand, since the fastener 30 is closer to the end 102 of the connection unit 10, the center of mass of the stirring unit 20 is farther from the connection unit 10, a longer arm of force can be formed when the connection unit 10 rotates the stirring unit 20, and the driving force required to drive the stirring unit 20 to rotate can be reduced.

In summary, the stirring assembly 100 according to the embodiment of the present application has the connection unit 10 provided with the stopper and the stirring unit 20, and the stirring unit 20 is rotatably connected to the connection unit 10 by the fastener 30, so that the stirring unit 20 can adaptively adjust the angle according to the stirring track during stirring. The rotation angle range of the stirring unit 20 relative to the connecting unit 10 is limited by the limited member 11, and the distance a between the fastening member 30 and the end 102 of the connecting unit 10 is smaller than the distance b between the limiting member 11 and the end 102 of the connecting unit 10, so that the stirring unit 20 can be closer to the end 102 of the connecting unit 10, the connecting unit 10 forms a longer force arm, and the driving force required for driving the stirring unit 20 to rotate is reduced.

Further description is provided below with reference to the accompanying drawings.

Referring to fig. 1 and 2, in some embodiments, the limiting member 11 includes two limiting protrusions 111, and the two limiting protrusions 111 are spaced apart from each other and are used to limit two limit positions of rotation of the stirring unit 20, respectively. That is, the two limit protrusions 111 are used for limiting the rotation of the stirring unit 20 in two different directions, respectively. In this way, the spacing between the two spacing protrusions 111 and the stirring unit 20 may be set such that the rotation of the stirring unit 20 in two different directions has the same or different rotation ranges, respectively.

For example, in the embodiment of fig. 1, the left-hand limit projection 111 is used to limit the limit position of the rotation of the stirring unit 20 in the w1 direction, and the right-hand limit projection 111 is used to limit the limit position of the rotation of the stirring unit 20 in the w2 direction. If the left-hand limit projection 111 is closer to the stirring unit 20 than the right-hand limit projection 111, the maximum angle by which the stirring unit 20 rotates in the w1 direction is smaller than the maximum angle by which the stirring unit 20 rotates in the w2 direction. If the left-hand limit projection 111 is farther from the stirring unit 20 than the right-hand limit projection 111, the maximum angle by which the stirring unit 20 rotates in the w1 direction is larger than the maximum angle by which the stirring unit 20 rotates in the w2 direction. If the distances between the left and right stopper protrusions 111 and the stirring unit 20 are equal, the maximum angle by which the stirring unit 20 rotates in the w1 direction is equal to the maximum angle by which the stirring unit 20 rotates in the w2 direction. Thereby, the interval between the two limit protrusions 111 and the stirring unit 20 can be flexibly set according to the preset angular range in which the stirring unit 20 rotates in the w1 direction and the w2 direction.

Referring to fig. 1 and 2, in one embodiment, two extreme positions of rotation of the stirring unit 20 are on the same side of the two limit protrusions 111. Alternatively, referring to fig. 3, in still another embodiment, two limit positions of rotation of the stirring unit 20 are between two limit protrusions 111.

As shown in fig. 1, fig. 1 illustrates an embodiment in which two extreme positions of rotation of the stirring unit 20 are on the same side as the two limit protrusions 111, and one end of the stirring unit 20 near the limiting member 11 includes a first abutting portion 201 and a second abutting portion 202. During the rotation of the stirring unit 20 in the w1 direction relative to the connecting unit 10, the first abutting portion 201 gradually approaches the left limiting projection 111, the second abutting portion 202 gradually gets away from the right limiting projection 111, and when the stirring unit 20 rotates until the first abutting portion 201 abuts against the left limiting projection 111, the rotation of the stirring unit 20 in the w1 direction is limited by the left limiting projection 111 to reach the limit position. During the rotation of the stirring unit 20 in the w2 direction relative to the connecting unit 10, the first abutting portion 201 gradually moves away from the left limiting projection 111, the second abutting portion 202 gradually approaches the right limiting projection 111, and when the stirring unit 20 rotates until the second abutting portion 202 abuts against the right limiting projection 111, the rotation of the stirring unit 20 in the w2 direction is limited by the right limiting projection 111 and reaches the limit position. Wherein, the rotation limit position of the stirring unit 20 in the w1 direction and the rotation limit position in the w2 direction are both positioned on one side of the two limit protrusions 111 toward the stirring unit 20. In this way, since the two limiting positions are on the same side of the two limiting protrusions 111, the first abutting portion 201 and the second abutting portion 202 do not need to extend between the two limiting protrusions 111, and do not need to extend to the left and right sides of the two limiting protrusions 111 to clamp the two limiting protrusions 111 in the middle, and the first abutting portion 201 and the second abutting portion 202 can be located on the same plane or curved surface, so that the structure is simple, and the production and the forming are easy. For example, in the embodiment of fig. 1, the first abutting portion 201 and the second abutting portion 202 are located on the same plane, and the stirring unit 20 only needs to have a plane at one end near the limiting projection 111, and no separate abutting structure is required.

As shown in fig. 3, fig. 3 illustrates an embodiment in which two limit positions of rotation of the stirring unit 20 are between the two limit protrusions 111, and one end of the stirring unit 20 near the limiting member 11 includes a third abutting portion 203, and the third abutting portion 203 is located between the two limit protrusions 111. When the stirring unit 20 rotates in the w1 direction relative to the connection unit 10 until the third abutting portion 203 abuts against the left-side stopper projection 111, the rotation of the stirring unit 20 in the w1 direction is restricted by the left-side stopper projection 111 and reaches the limit position. When the stirring unit 20 rotates the connection unit 10 in the w2 direction until the third abutting portion 203 abuts against the right stopper projection 111, the rotation of the stirring unit 20 in the w2 direction is restricted by the right stopper projection 111 and reaches the limit position. The third abutting portion 203 can be used for positioning the stirring unit 20 when connecting the stirring unit 20 and the connecting unit 10, and can be abutted against the two limiting protrusions 111 to limit the positions of the stirring unit, so that the reverse assembly of the stirring unit is avoided. For example, in the embodiment of fig. 3, if the stirring unit 20 is reversely attached when the stirring unit 20 and the connecting unit 10 are connected, the third abutting portion 203 will not be located between the two limit protrusions 111, and it can be clearly determined that the stirring unit 20 is reversely attached.

Referring to fig. 1 and 2, in some embodiments, the position of at least one of the limiting protrusions 111 is adjustable, so that the spacing distance between two limiting protrusions 111 is adjustable. In this way, the user can adjust the position of at least one of the limiting protrusions 111 according to different usage requirements to change the spacing distance between the two limiting protrusions 111, so as to change the rotatable range of the stirring unit 20.

The position of the limiting protrusion 111 is adjustable, which means that the position of the limiting protrusion 111 in the connection unit 10 is not fixed, and the position of the limiting protrusion 111 in the connection unit 10 can be changed according to the requirement.

In one embodiment, the connection unit 10 is provided with a chute (not shown), and at least one limit protrusion 111 can slide in the chute and be fixed at any position in the chute, so that the position of the limit protrusion 111 can be adjusted. Wherein, the position of one limiting protrusion 111 is always fixed, and the other limiting protrusion 111 can slide in the chute; it is also possible that both limit protrusions 111 can slide in the slide groove, which is not limited here.

In yet another embodiment, the at least one limit protrusion 111 is detachably connected to the connection unit 10 and can be selectively connected to different positions of the connection unit 10. For example, the connection unit 10 is provided with a plurality of mounting holes (not shown) at different positions, at least one of the limit protrusions 111 may be selectively coupled to one of the mounting holes, and the interval distance between the two limit protrusions 111 may be changed by coupling the limit protrusions 111 to the different mounting holes. Wherein, the position of one limiting protrusion 111 is always fixed, and the other limiting protrusion 111 is detachably connected with the connecting unit 10; it is also possible that both of the limit protrusions 111 are detachably connected to the connection unit 10, which is not limited herein.

In a further embodiment, the limiting member 11 comprises at least 3 movable members which can be sunk into the surface of the connection unit 10 or protrude beyond the surface of the connection unit 10, the movable members protruding beyond the surface of the connection unit 10 forming limiting projections 111. For example, in the embodiment illustrated in fig. 1, two movable members protrude beyond the surface of the connection unit 10 to form two limit protrusions 111. The positions of each movable member are different, so that the spacing between the two spacing protrusions 111 formed when the two different movable members extend out of the surface of the connection unit 10 is also different, so that the two spacing protrusions 111 formed when the two corresponding movable members extend out of the surface of the connection unit 10 can be selected according to the requirement, and the spacing between the two spacing protrusions 111 formed by the two selected movable members can meet the requirement. The movable member may be configured to have a certain elasticity, and may be pressed to be ejected out of the surface of the connection unit 10 when the movable member is sunk into the surface of the connection unit 10, and may be pressed to be sunk into the surface of the connection unit 10 when the movable member is projected out of the surface of the connection unit 10, so that a user can conveniently and rapidly switch the movable member projected out of the surface of the connection unit 10.

Referring to fig. 4 and 5, in some embodiments, the limiting member 11 includes a limiting protrusion 111, and two opposite ends of the limiting protrusion 111 are respectively used for limiting the rotation of the stirring unit 20.

In one embodiment, as shown in fig. 4, the limit protrusion 111 protrudes from the surface 1011 of the first end 101 of the connection unit 10. The limiting protrusion 111 and the connection unit 10 may be an integral structure, and the limiting protrusion 111 is formed by extending from the surface 1011 of the first end 101 of the connection unit 10; alternatively, the limiting protrusion 111 may be a structure independent from the connection unit 10, and the limiting protrusion 111 is fixedly coupled to the surface 1011 of the first end 101 of the connection unit 10, which is not limited herein.

In yet another embodiment, as shown in fig. 5, the first end 101 of the connection unit 10 includes a thicker portion 13 and a thinned portion 14, the stirring unit 20 is connected to the thinned portion 14 of the connection unit 10, the fastener 30 is disposed through the thinned portion 14, and the thinned portion 14 is disposed on a plane that can be flattened for the stirring unit 20 to fit, and the thickness of the thinned portion 14 is smaller than that of the thicker portion 13 so as to be convenient for the fastener 30 to be disposed through. The thinned portion 14 may be formed by cutting on the thicker portion 13, and the thicker portion 13 forms the limit projection 111 after the thinned portion 14 is formed. In this way, the first end 101 of the connection unit 10 does not need to be provided with the limiting protrusion 111 alone, and the forming mode of the limiting protrusion 111 is simple and convenient for processing.

Taking the embodiment of fig. 4 as an example, the limiting protrusion 111 includes a first end 1113 and a second end 1115 opposite to each other, where the first end 1113 is used to limit the rotation of the stirring unit 20 in the w1 direction to a limit position, and the second end 1115 is used to limit the rotation of the stirring unit 20 in the w2 direction to a limit position. Compared to the embodiment of the two limiting protrusions 111 of fig. 1, the position between the first end 1113 and the second end 1115 of the limiting protrusion 111 of fig. 4 may also be used for limiting, for example, a user may replace the stirring unit 20 with a different size to be connected with the connecting unit 10 according to the requirement, and when replacing the stirring unit 20 with a smaller size to be connected with the connecting unit 10, the smaller size stirring unit 20 may use the position between the first end 1113 and the second end 1115 as a rotational limit. So that one limit protrusion 111 can be used for limiting the stirring units 20 of different sizes.

Referring to fig. 6 and 7, in some embodiments, the stirring unit 20 includes a loading member 21 and a stirring member 22. The loader 21 includes a loading portion 211 and an engaging portion 212 attached to the loading portion 211; the stirring element 22 includes a stirring portion 221 and an engaging portion 222 mounted on the stirring portion 221, where the engaging portion 222 is used to tightly engage with the engaging portion 212, so that the stirring element 22 is detachably mounted on the loading element 21, and the engaging portion 222 can deform to release the engagement between the engaging portion 222 and the engaging portion 212.

The stirring member 22 is used to stir food in the pot 400 (shown in fig. 13), and the loading member 21 connects the stirring member 22 and the connection unit 10. The stirring piece 22 can be detached from the loading piece 21, so that the stirring piece 22 can be taken out from the pot body 400 for cleaning, and the stirring piece 22 is prevented from being difficult to clean due to blocking of other structures in the pot body 400.

When the stirring bar 22 is mounted on the loading bar 21, the engaging portion 222 is tightly engaged with the engaging portion 212 so that the stirring bar 22 cannot be separated from the loading bar 21, and if the stirring bar 22 is to be removed, an external force may be applied to the engaging portion 222 to deform the engaging portion 222 so as to release the engagement between the engaging portion 222 and the engaging portion 212, so that the engaging portion 222 can be separated from the engaging portion 212. In this way, the loading piece 21 and the stirring piece 22 can be separated simply and quickly.

Accordingly, if the stirring bar 22 is to be mounted on the loading bar 21, the engaging portion 222 may be deformed by applying an external force to the engaging portion 222, the engaging portion 222 in the deformed state may be moved to a position capable of being engaged with the engaging portion 212, and after the external force is removed, the engaging portion 222 may be restored to be deformed to form a tight engagement with the engaging portion 212, so that the stirring bar 22 may be mounted on the loading bar 21. In this way, the stirring bar 22 can be simply and quickly attached to the loading bar 21.

Referring to fig. 6 and 7, in some embodiments, the loading member 21 includes two spaced engaging portions 212, the stirring member 22 includes two spaced engaging portions 222, the two engaging portions 222 correspond to the two engaging portions 212 respectively, and the two engaging portions 222 extend into a gap between the two engaging portions 212 and are tightly engaged with the corresponding engaging portions 212.

When the stirring bar 22 is attached to the loading bar 21, the two engaging portions 212 are tightly engaged with the corresponding engaging portions 212 in the gap between the two engaging portions 212. The space between the two engaging portions 222 provides space for deformation of the two engaging portions 222. If the stirring bar 22 is to be removed, the two engaging portions 222 may be pinched from both sides of the two engaging portions 222 to the middle, and the two engaging portions 222 may be deformed in a direction toward each other to release the tight engagement of the two engaging portions 222 with the corresponding engaging portions 212.

Specifically, the engaging portion 222 has a hook 2221 at an end facing away from the stirring portion 221, and when the stirring member 22 is mounted on the loading member 21, the hook 2221 is tightly engaged with the corresponding engaging portion 212, so that the stirring member 22 cannot be removed from the loading member 21 by moving along the first direction X1. If the stirring member 22 is to be removed, the two engaging portions 222 may be pinched from two sides of the two engaging portions 222 to the middle, so that the hooks 2221 of the two engaging portions 222 are away from the corresponding engaging portions 212, and the two hooks 2221 are released from being tightly engaged with the corresponding engaging portions 212, so that the hooks 2221 no longer limit the movement of the stirring member 22 along the first direction X1.

When the stirring member 22 is separated from the loading member 21, the gap between the two engaging portions 212 is insufficient for the two engaging portions 222 to be installed, if the stirring member 22 is to be installed on the loading member 21, the two engaging portions 222 may be pinched to the middle so that the two engaging portions 222 can extend into the gap between the two engaging portions 212, and after the two engaging portions 222 extend into the gap between the two engaging portions 212, the external force is removed so that the two engaging portions 222 resume deformation and move in a direction away from each other, so as to form a tight fit with the engaging portions 212.

Referring to fig. 8, in some embodiments, the stirring member 22 includes two engaging portions 222 spaced apart from each other, the engaging portion 212 is disposed in a gap between the two engaging portions 222, and both engaging portions 222 are tightly engaged with the engaging portion 212.

When the stirring bar 22 is mounted on the mounting bar 21, the two engaging portions 222 are respectively engaged with the engaging portions 212 on the left and right sides of the engaging portions 212, so that the engaging portions 212 are sandwiched between the two engaging portions 222. Further, the engaging portion 222 has a hook 2221 at an end facing away from the stirring portion 221, and the hooks 2221 of the two engaging portions 222 are respectively engaged with the engaging portion 212 on the left and right sides of the engaging portion 212 so that the stirring member 22 cannot move along the first direction X1 and is detached from the loading member 21. If the stirring member 22 is to be removed, an external force can be applied to deform the two engaging portions 222 in a direction away from each other, so that the hooks 2221 of the two engaging portions 222 are away from the engaging portions 212, and the two hooks 2221 are released from being tightly engaged with the corresponding engaging portions 212, so that the hooks 2221 no longer limit the movement of the stirring member 22 along the first direction X1.

When the stirring bar 22 is separated from the loading bar 21, the engaging portion 212 blocks the mounting path of the engaging portion 222, and if the stirring bar 22 is to be mounted on the loading bar 21, an external force can be applied to deform the two engaging portions 222 in a direction away from each other, the two engaging portions 222 are mounted around the engaging portion 212, the external force is removed after the engaging portion 212 is mounted in a gap between the two engaging portions 222, and the two engaging portions 222 are restored to deform and move in a direction toward each other, sandwiching the engaging portion 212, so as to form a tight fit with the engaging portion 212.

Referring to fig. 9, in some embodiments, the loading member 21 includes two mating portions 212 spaced apart from each other, the engaging portion 222 includes a first sub-portion 2221 and a second sub-portion 2222 connected to each other, the first sub-portion 2221 extends into a gap between the two mating portions 212 and is in close contact with the two mating portions 212, and two ends of the second sub-portion 2222 are in close engagement with the two mating portions 212.

In one embodiment, the first sub-portion 2221 and the two second sub-portions 2222 are "T" shaped. Wherein both ends of the second sub-portion 2224 may be deformed with respect to the first sub-portion 2223. When the stirring bar 22 is attached to the loading bar 21, the second sub-portions 2224 are respectively engaged with the corresponding engaging portions 212. If the stirring bar 22 is to be removed, an external force may be applied to deform the two second sub-portions 2224 in a direction approaching each other to release the tight engagement of the two engaging portions 222 with the corresponding engaging portions 212.

When the stirring bar 22 is separated from the loading bar 21, the gap between the two mating parts 212 is only capable of accommodating the first sub-part 2223, but insufficient for accommodating the two engaging parts 222, if the stirring bar 22 is to be mounted on the loading bar 21, an external force can be applied to deform the two second sub-parts 2224 in a direction toward each other, so that the two second sub-parts 2224 can extend into the gap between the two mating parts 212, and after the two second sub-parts 2224 extend into the gap between the two mating parts 212, the external force is removed, so that the two second sub-parts 2224 resume the deformation and move in a direction away from each other, so as to form a tight fit with the mating parts 212.

Referring to fig. 5, in some embodiments, the stirring unit 20 is provided with a mounting hole 24, and the mounting hole 24 has a "D" shape, and correspondingly, the radial cross section of the fastener 30 has a "D" shape. In this manner, there is a face fit between the fastener 30 and the mounting hole 24 such that the fastener 30 cannot rotate relative to the mounting hole 24 to provide a stable connection of the fastener 30 to the stirring unit 20.

Referring to fig. 6, in some embodiments, the loading portion 211 is provided with a first limiting portion 2111, the stirring portion 221 is provided with a second limiting portion 2211, and the second limiting portion 2211 cooperates with the first limiting portion 2111 to limit the relative position between the loading member 21 and the stirring member 22. In this way, the rattling between the attached loading piece 21 and stirring piece 22 can be reduced.

In the embodiment of fig. 6, the first restriction portion 2111 is a groove recessed in a direction away from the stirring member 22, the second restriction portion 2211 is a protrusion protruding toward the loading member 21 with respect to the stirring portion 221, and the first restriction portion 2111 and the second restriction portion 2211 achieve a stable fit by fitting between the protrusion and the groove. In other embodiments, the first limiting portion 2111 may be a protrusion protruding toward the stirring member 22, and correspondingly, the second limiting portion 2211 is a groove recessed toward a direction away from the loading member 21 with respect to the stirring portion 221, which is not limited herein.

Referring to fig. 6, in some embodiments, the stirring unit 20 further includes a decoration 23, the decoration 23 is mounted on the loading portion 211, and the stirring member 22 is located between the decoration 23 and the loading member 21. In this way, in the process of stirring the food materials by the stirring unit 20, the decoration 23 and the loading piece 21 can form protection on the stirring piece 22 at two sides of the stirring piece 22, so as to prevent the foreign matters such as oil smoke, water vapor, food material scraps and the like from entering the connection part of the stirring piece 22 and the loading piece 21, and avoid the influence of the foreign matters on the stirring piece 22 to be difficult to detach from the loading piece 21.

Referring to fig. 6 and 10, in some embodiments, the loading portion 211 is provided with a groove 2113, and the stirring member 22 is at least partially received in the groove 2114, and the bottom end 2214 of the stirring portion 221 protrudes relative to the bottom end 2114 of the loading portion 211. The stirring member 22 is at least partially received in the recess 2114 such that the stirring member 22 can be sandwiched by the garnish 23 and the loader 21. The bottom end 2214 of the stirring section 221 protrudes relative to the bottom end 2114 of the loading section 211 to ensure that the bottom end 2214 of the stirring section 221 can stir to the food material on the basis that the stirring member 22 is sandwiched by the garnish 23 and the loading member 21.

In some embodiments, the material of the stirring portion 221 may be made of a food grade material. The temperature resistant range of the stirring part 221 made of food-grade material becomes wide, and even under a high-temperature environment, the stirring part 221 still has strong chemical stability, does not exude toxic substances and chemical components which are unfavorable to human bodies, and further ensures the safety of processing food materials by using the stirring part 221. The material of the stirring portion 221 may include, but is not limited to, food grade silica gel.

Referring to fig. 11 and 12, the present application further provides a stirring device 1000. The stirring device 1000 includes a drive assembly 200, a transmission assembly 300, and the stirring assembly 100 of any of the embodiments described above. The transmission assembly 300 is connected to the driving assembly 200 and the stirring assembly 100, and the transmission assembly 300 is used for transmitting the power of the driving assembly 200 to the stirring assembly 100 so as to rotate the stirring assembly 100.

The driving force provided by the driving assembly 200 can drive the transmission assembly 300 to rotate, the stirring assembly 100 is connected with the transmission assembly 300 through the connecting component, and when the transmission assembly 300 is driven by the driving force provided by the driving assembly 200, the transmission assembly 300 rotates to transmit the power of the driving assembly 200 to the stirring assembly 100, so that the stirring assembly 100 rotates.

Referring to fig. 13, the present application further provides a cooking apparatus 10000. The cooking apparatus 10000 includes a flipping unit 2000 and a stirring unit 1000 in any of the above embodiments. The turning device 2000 is connected to the stirring device 1000 and is used for driving the stirring device 1000 to turn.

As shown in fig. 13, when the stirring assembly 100 of the stirring device 1000 is located in the pan body 400, the stirring assembly 100 can be lifted out of the pan body 400 by driving the stirring device 1000 to turn upwards around the turning shaft A1 by the turning device 2000, so as to clean the pan body 400 or the stirring assembly 100. Similarly, in the case where the stirring assembly 100 is located outside the pan body 400, the stirring assembly 100 may be lowered into the pan body 400 by driving the stirring device 1000 to turn downward around the turning shaft A1 by the turning device 2000 so that the stirring assembly 100 can stir in the pan body 400.

In the description of the present specification, reference to the terms "certain embodiments," "in one example," "illustratively," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the present application, and that variations, modifications, alternatives, and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the present application.

Claims (10)

1. A stirring assembly, comprising:

the first end of the connecting unit is provided with a limiting piece; and

A stirring unit rotatably connected with the first end of the connecting unit by a fastener, the rotation range of the stirring unit being limited by the limiting member,

wherein the first end of the connection unit has a tip in a direction toward the stirring unit, and a distance between the fastener and the tip is smaller than a distance between the restriction and the tip.

2. A mixing assembly as defined in claim 1 wherein said limiting member comprises two limiting projections spaced apart from each other and adapted to limit the rotation of said mixing unit to two extreme positions, respectively.

3. A mixing assembly as defined in claim 2 wherein the two extreme positions of rotation of the mixing unit are on the same side of the two limit lugs.

4. The stirring assembly of claim 2, wherein a position of at least one of the limit protrusions is adjustable such that a separation distance between two of the limit protrusions is adjustable.

5. A mixer assembly according to claim 1, wherein the limiting member comprises a limiting projection having opposite ends for limiting the rotation of the mixer unit to two extreme positions, respectively.

6. The stirring assembly of claim 1, wherein the stirring unit comprises:

the loading piece comprises a loading part and a matching part arranged on the loading part; and

The stirring piece comprises a stirring part and a clamping part arranged on the stirring part, wherein the clamping part is used for being tightly matched with the matching part, so that the stirring piece is detachably arranged on the loading piece, and the clamping part can deform to release the matching between the clamping part and the matching part.

7. The stirring assembly of claim 6, wherein the stirring assembly comprises a stirring tube,

the loading piece comprises two mutually-spaced matching parts, the stirring piece comprises two mutually-spaced clamping parts, the two clamping parts correspond to the two matching parts respectively, and the two clamping parts extend into a gap between the two matching parts and are tightly clamped with the corresponding matching parts; and/or

The stirring piece comprises two mutually-spaced clamping parts, the matching parts are positioned in a gap between the two clamping parts, and the two clamping parts are tightly clamped with the matching parts; and/or

The loading piece comprises two mutually-spaced matching parts, the clamping part comprises a first sub-part and a second sub-part which are connected, the first sub-part stretches into a gap between the two matching parts and is in close contact with the two matching parts, and two ends of the second sub-part are in close clamping with the two matching parts.

8. The stirring assembly of claim 7, wherein the loading portion is provided with a first limiting portion and the stirring portion is provided with a second limiting portion, the second limiting portion cooperating with the first limiting portion to limit the relative position between the loading member and the stirring member; and/or

The stirring piece is at least partially accommodated in the groove, and the bottom end of the stirring part protrudes relative to the bottom end of the loading part; and/or

The stirring unit further comprises a decorating part, the decorating part is installed on the loading part, and the stirring piece is located between the decorating part and the loading piece.

9. A stirring device, characterized by comprising:

a drive assembly;

the stirring assembly of any one of claims 1-8; and

The transmission assembly is connected with the driving assembly and the stirring assembly, and the transmission assembly is used for transmitting the power of the driving assembly to the stirring assembly so as to enable the stirring assembly to rotate.

10. A cooking apparatus, comprising:

the stirring device of claim 9; and

And the turnover device is connected with the stirring device and is used for driving the stirring device to turn over.