A cooking appliance

The detachable cookware structure and connecting device solve the problem of the handle and functional head being unable to be separated for cleaning, thus optimizing the cookware's space and improving cleaning convenience, extending its service life, and enhancing its flexibility and ease of use.

CN224441161UActive Publication Date: 2026-07-03WUHAN SUPOR COOKWARE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUHAN SUPOR COOKWARE
Filing Date
2025-06-27
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In existing cookware, the handle and function head are not detachable, making it impossible to clean the handle and function head separately due to their different materials, which affects the service life and cleaning convenience.

Method used

A detachable cooker structure is designed, including a first handle body, a second handle body, and a connecting device. The handle and the functional head are detachably connected through a drive component and a locking component. The reliability of locking and unlocking is improved by using a limiting component and a guide ramp. The connecting device is protected by a housing to prevent damage.

Benefits of technology

It optimizes cookware space and makes cleaning easier, extends its service life, improves its flexibility and ease of use, and enhances the user experience.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224441161U_ABST
    Figure CN224441161U_ABST
Patent Text Reader

Abstract

This application provides a cooker, comprising a first handle, a second handle, and a connecting device. The connecting device includes a driving component and a locking component. One end of the driving component is detachably connected to the first handle, and the other end is used to drive the locking component to move relative to the second handle, thereby locking or unlocking the locking component with the second handle. A functional head is provided at the end of the first handle away from the connecting device, and / or, a functional head is provided at the end of the second handle away from the connecting device. In this solution, the first and second handles are detachably connected to the connecting device, saving storage space for the cooker. When either the first or second handle is damaged, it can be replaced or washed separately, which helps extend the lifespan of the cooker. The connecting device can be used as a universal component, providing users with more options, improving the practicality and flexibility of the cooker, and enhancing the user experience.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of kitchen utensils technology, and in particular to a cooking utensil. Background Technology

[0002] Cookware typically consists of a handle and a functional head (such as a spatula or spoon). In existing cookware designs, the handle and functional head are usually fixedly connected and cannot be detached. However, the handle and functional head are often made of different materials, and different materials require different cleaning methods and water temperatures. The non-detachable structure makes it difficult to clean the handle and functional head separately, which can easily affect the lifespan of the cookware. Utility Model Content

[0003] This application provides a cooker with a detachable structure to solve the problem in the prior art that the handle and functional head cannot be separated for cleaning.

[0004] This application provides a cooker, which includes a first handle, a second handle, and a connecting device. The connecting device includes a driving component and a locking component. One end of the driving component is detachably connected to the first handle, and the other end is used to drive the locking component to move relative to the second handle, so that the locking component locks or unlocks with the second handle.

[0005] Wherein, the end of the first handle away from the connecting device is provided with a functional head, and / or, the end of the second handle away from the connecting device is provided with a functional head.

[0006] In this design, the first and second handles are detachably connected to the connecting device, saving storage space for the cookware. Furthermore, if either the first or second handle is damaged, it can be replaced individually without rendering the entire cookware unusable. The design also allows for separate cleaning of the first and second handles, which are made of different materials, using their respective suitable water temperatures and cleaning methods, improving the convenience of cookware cleaning and extending its lifespan.

[0007] In addition, the connecting device can be used as a universal component, and can be used with a first handle body of a variety of different materials and a second handle body of a variety of different materials, providing users with more choices. Users can replace the first handle body or the second handle body with different materials or different functional heads according to their needs during use, which improves the practicality and flexibility of the cookware and enhances the user experience.

[0008] Optionally, the side wall of the second handle is provided with a first limiting groove. The locking assembly includes a moving member and a first limiting member, the side wall of the moving member is provided with a through hole, and the first limiting member is movably installed in the through hole.

[0009] The first limiting member is used to extend into the first limiting groove along the through hole during the movement of the locking assembly relative to the second handle, so that the first limiting member engages with the first limiting groove. The first limiting member is also used to retract into the through hole during the movement of the locking assembly relative to the second handle, so that the first limiting member disengages from the first limiting groove.

[0010] In this solution, the locking component and the second handle have a simple and reliable mating structure. The first limiting component locks and unlocks the second handle by extending or retracting through the through hole, which optimizes the space of the cookware and improves the user's ease of operation.

[0011] Optionally, the first limiting groove is provided with a first guide slope, and the first guide slope slides in cooperation with the first limiting member.

[0012] As the locking assembly moves away from the second handle, the first guide ramp slides into contact with the first limiting member to drive the first limiting member to retract into the through hole.

[0013] In this solution, the first guide slope is used to drive the movement of the first limiting member during the unlocking process of the locking component and the second handle, and to guide the movement of the first limiting member during the locking process of the locking component and the second handle, thereby improving the reliability of the second handle and the connecting device switching between the locked and unlocked states.

[0014] Optionally, the connecting device further includes a housing, in which the locking assembly is slidably mounted. The housing is provided with a guide portion that gradually decreases in inner diameter along the axial direction of the housing towards the second handle.

[0015] As the locking component moves closer to the second handle, the inner wall of the guide portion slides against the first limiting member to drive the first limiting member to extend into the first limiting groove along the through hole.

[0016] In this solution, on the one hand, the housing protects the drive and locking components, reduces damage to the connecting device from the external environment, isolates the internal and external environments of the connecting device, prevents dust and dirt, and extends the service life of the cookware.

[0017] On the other hand, the guide portion is used to drive the movement of the first limiting member during the locking process of the locking assembly and the second handle, and to guide the movement of the first limiting member during the locking and unlocking processes of the locking assembly and the second handle, thereby improving the reliability of the second handle and the connecting device switching between the locked and unlocked states.

[0018] Optionally, the housing is provided with a first abutting portion, and the moving member passes through the first abutting portion. The moving member is provided with a second abutting portion.

[0019] The connecting device further includes a first elastic element, and along the axial direction of the housing, the two ends of the first elastic element abut against the first abutting portion and the second abutting portion, respectively.

[0020] In this solution, the first elastic element enables the locking component to automatically reset, simplifying the operation steps and further improving the user experience.

[0021] Optionally, the sidewall of the moving member is provided with a second guide ramp. The driving assembly includes a driving member, which is movably mounted on the side surface of the first abutment portion away from the first elastic member.

[0022] As the driving member approaches the moving member radially along the housing, the driving member is used to slide in engagement with the second guide ramp to drive the locking assembly away from the second handle.

[0023] In this design, a sliding fit is provided between the driving component and the moving component to achieve locking and unlocking of the second handle of the control locking assembly. The second guide slope guides the movement of the driving component, improving the reliability of the second handle and the connecting device switching between the locked and unlocked states.

[0024] Optionally, the drive assembly further includes a pressing member, one end of which is detachably connected to the first handle body, and the other end is provided with a third guide slope.

[0025] The third guide ramp is used to slide with the drive member when the pressing member is pressed, so as to drive the drive member to move closer to the second handle body along the radial direction of the housing.

[0026] In this design, the third guide slope guides and drives the movement of the drive component, enabling the drive component to precisely drive the moving component, improving the movement stability between the drive component and the moving component, and enhancing the reliability of the second handle and the connecting device in switching between locked and unlocked states.

[0027] Optionally, the drive assembly further includes a second elastic element along the axial direction of the housing, with both ends of the second elastic element abutting against the pressing element and the moving element, respectively.

[0028] In this solution, the second elastic element enables the pressing and moving parts to automatically reset, simplifying the operation steps and further improving the user experience.

[0029] Optionally, the side wall of the pressing member is provided with a limiting protrusion. A retaining ring is installed at the end of the moving member away from the second handle, and the retaining ring and the limiting protrusion are engaged to limit the movement along the axial direction of the moving member.

[0030] In this design, the limiting protrusion and the retaining ring cooperate to prevent the moving part from disengaging from the pressing part during movement towards the second handle. Furthermore, the retaining ring reduces the risk of wear caused by direct contact between the moving part and the pressing part, thus extending the service life of the connecting device.

[0031] Optionally, the outer side wall of the housing is further provided with a support portion, which protrudes outward relative to the housing.

[0032] In this design, the support unit allows the cookware to be placed stably on a flat surface or hung on the side wall of other kitchen utensils such as pots and pans, improving the cookware's applicability and enhancing the user experience.

[0033] It should be understood that the above general description and the following detailed description are merely exemplary and do not limit this application. Attached Figure Description

[0034] Figure 1 This is a schematic diagram of the cooking utensils in the embodiments of this application;

[0035] Figure 2 A partial cross-sectional view of the cookware when the locking assembly is locked with the second handle;

[0036] Figure 3 A partial cross-sectional view of the cookware when the locking assembly is unlocked from the second handle;

[0037] Figure 4 for Figure 2 A magnified view of part A in the middle;

[0038] Figure 5 for Figure 3 A magnified view of part C in the middle;

[0039] Figure 6 for Figure 2 A magnified view of part B in the middle section;

[0040] Figure 7 for Figure 3 A magnified view of part D in the middle;

[0041] Figure 8 This is a schematic diagram of the moving part in the embodiments of this application;

[0042] Figure 9 This is a partial structural diagram of the second handle in an embodiment of this application;

[0043] Figure 10 This is a partial structural schematic diagram of the cookware from another perspective in an embodiment of this application.

[0044] Explanation of reference numerals in the attached figures:

[0045] 100 - First handle body;

[0046] 200 - Second handle body;

[0047] 201 - First limiting groove;

[0048] 201a - First guide ramp;

[0049] 201b - First contact surface;

[0050] 300 - Connecting device;

[0051] 1-Driver components;

[0052] 11-Drive components;

[0053] 12-Pressing element;

[0054] 121 - Limiting protrusion;

[0055] 122 - Third guide ramp;

[0056] 123 - External thread;

[0057] 124 - Second receiving slot;

[0058] 2- Locking component;

[0059] 21-Moving parts;

[0060] 211 - Through hole;

[0061] 212 - Second contact section;

[0062] 213 - Second limiting groove;

[0063] 213a - Second guide ramp;

[0064] 213b - Second contact surface;

[0065] 214-stop ring;

[0066] 215 - First receiving slot;

[0067] 216 - Third receiving tank;

[0068] 22-First limiting component;

[0069] 3-Shell;

[0070] 31-Guide section;

[0071] 32-First contact section;

[0072] 33-Support section;

[0073] 4-First elastic element;

[0074] 5-Second elastic element. Detailed Implementation

[0075] To better understand the technical solution of this application, the embodiments of this application will be described in detail below with reference to the accompanying drawings.

[0076] It should be understood that the described embodiments are merely some, not all, of the embodiments in this application. All other embodiments obtained by those skilled in the art based on the embodiments in this application without inventive effort are within the scope of protection of this application.

[0077] The terminology used in the embodiments of this application is for the purpose of describing particular embodiments only and is not intended to be limiting of this application. The singular forms “a,” “the,” and “the” used in the embodiments of this application and the appended claims are also intended to include the plural forms unless the context clearly indicates otherwise.

[0078] It should be understood that the term "and / or" used in this article is merely a description of the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent: A existing alone, A and B existing simultaneously, or B existing alone. Additionally, the character " / " in this article generally indicates that the preceding and following related objects have an "or" relationship.

[0079] This application provides a cooker that can be adapted to other kitchen utensils such as pots and pans. The cooker can be in a locked working state or unlocked to a disassembled state. This application does not limit the specific usage environment of the cooker.

[0080] like Figure 1 As shown, the cookware includes a first handle body 100, a second handle body 200, and a connecting device 300.

[0081] The connecting device 300 is used to connect the first handle 100 and the second handle 200. The connecting device 300 includes a driving component 1 and a locking component 2. One end of the driving component 1 is detachably connected to the first handle 100, and the other end is used to drive the locking component 2 to move relative to the second handle 200, so that the locking component 2 locks or unlocks the second handle 200. When the locking component 2 is locked to the second handle 200, the cookware is in working condition; when the locking component 2 is unlocked to the second handle 200, the cookware is in disassembled condition, and the user can clean or maintain the cookware in the disassembled condition.

[0082] In this embodiment, a functional head is provided at the end of the first handle 100 away from the connecting device 300, and / or, a functional head is provided at the end of the second handle 200 away from the connecting device 300. The functional head includes, but is not limited to, a spoon part, a spatula part, a strainer part, etc., and the specific structure of the functional head is not limited in this application embodiment.

[0083] Specifically, in some embodiments, the end of the first handle 100 away from the connecting device 300 is provided with a functional head, while the end of the second handle 200 away from the connecting device 300 is not provided with a functional head; in other embodiments, the end of the first handle 100 away from the connecting device 300 is not provided with a functional head, while the end of the second handle 200 away from the connecting device 300 is provided with a functional head; in still other embodiments, both the end of the first handle 100 away from the connecting device 300 and the end of the second handle 200 away from the connecting device 300 are provided with functional heads.

[0084] In this embodiment, the first handle 100 and the second handle 200 are detachably connected to the connecting device 300, saving storage space for the cookware. Furthermore, if either the first handle 100 or the second handle 200 is damaged, it can be replaced individually without rendering the entire cookware unusable. This also allows the first handle 100 and the second handle 200, made of different materials, to be cleaned separately using their respective suitable water temperatures and cleaning methods, improving the convenience of cookware cleaning and extending its lifespan. The connecting device 300 can serve as a universal component, compatible with various first handles 100 and second handles 200 made of different materials, providing users with more options. Users can replace the first handle 100 or second handle 200 with different materials or functional heads as needed during use, improving the practicality and flexibility of the cookware and enhancing the user experience.

[0085] The following description uses an example where the end of the first handle 100 furthest from the connecting device 300 does not have a functional head, while the end of the second handle 200 furthest from the connecting device 300 has a functional head. Specifically, the first handle 100 can be a handle, and the second handle 200 can be a spatula. The handle can be made of plastic, wood, etc., and this application does not limit the specific material of the handle.

[0086] In some embodiments, such as Figure 9 As shown, the side wall of the second handle 200 is provided with a first limiting groove 201. Figure 2 and Figure 3 As shown, the locking component 2 includes a moving part 21 and a first limiting part 22. The side wall of the moving part 21 is provided with a through hole 211, and the first limiting part 22 is movably installed in the through hole 211.

[0087] like Figure 6As shown, the first limiting member 22 is used to extend into the first limiting groove 201 along the through hole 211 during the movement of the locking assembly 2 relative to the second handle 200, so that the first limiting member 22 engages with the first limiting groove 201. Figure 7 As shown, the first limiting member 22 is also used to retract into the through hole 211 during the movement of the locking component 2 relative to the second handle 200, so as to release the first limiting member 22 from the first limiting groove 201.

[0088] In this embodiment, the cooperation structure between the locking component 2 and the second handle 200 is simple and highly reliable. The first limiting member 22 locks and unlocks the second handle 200 by extending or retracting the through hole 211, thereby optimizing the space of the cookware and improving the user's ease of operation during use.

[0089] Specifically, such as Figure 3 As shown, the moving part 21 has a first receiving groove 215, and a through hole 211 is provided on the side wall of the first receiving groove 215. The second handle 200 can extend into the first receiving groove 215 to realize the locking component 2 locking the second handle 200, or the second handle 200 can disengage from the first receiving groove 215 to realize the locking component 2 unlocking the second handle 200.

[0090] In this embodiment, the first limiting member 22 can be a ball bearing, and there can be two first limiting members 22. Setting the first limiting member 22 as a ball bearing effectively reduces the frictional resistance of the first limiting member 22 during the movement of the locking component 2 relative to the second handle 200, thus improving the switching speed between the second handle 200 and the connecting device 300 in the locked and unlocked states. Furthermore, the appropriate number of first limiting members 22 improves the connection stability between the second handle 200 and the connecting device 300.

[0091] In other embodiments, the first limiting member 22 may also be a slider or other structure, and the specific number of the first limiting member 22 may also be 1, 3, or other numbers. This application does not limit the specific structure and specific number of the first limiting member 22.

[0092] In some embodiments, such as Figure 6 and Figure 7 As shown, the first limiting groove 201 is provided with a first guide slope 201a, which slides in engagement with the first limiting member 22. During the movement of the locking assembly 2 away from the second handle 200, the first guide slope 201a slides in engagement with the first limiting member 22 to drive the first limiting member 22 to retract into the through hole 211.

[0093] Specifically, when the locking component 2 moves away from the second handle 200, the first limiting member 22 slides upward along the first guide slope 201a. During this process, the first guide slope 201a can drive the first limiting member 22 to retract from the first limiting groove 201 to the through hole 211, so that the first limiting member 22 is disengaged from the first limiting groove 201, thereby allowing the locking component 2 to switch from locking to unlocking the second handle 200. When the locking component 2 moves towards the second handle 200, the first limiting member 22 can slide downward along the first guide slope 201a. During this process, the first guide slope 201a can guide the movement of the first limiting member 22 to ensure that the first limiting member 22 can smoothly enter the first limiting groove 201 from the through hole 211 and engage with the first limiting groove 201, thereby allowing the locking component 2 to switch from unlocking to locking the second handle 200.

[0094] In this embodiment, the first guide slope 201a is used to drive the movement of the first limiting member 22 during the unlocking process of the locking component 2 and the second handle 200, and to guide the movement of the first limiting member 22 during the locking process of the locking component 2 and the second handle 200, thereby improving the reliability of the second handle 200 and the connecting device 300 switching between the locked state and the unlocked state.

[0095] In the above embodiments, such as Figure 2 and Figure 3 As shown, the connecting device 300 also includes a housing 3, and the locking component 2 is slidably installed inside the housing 3. Figure 6 and Figure 7 As shown, the housing 3 is provided with a guide portion 31, which is oriented towards the second handle 200 along the axial direction Z of the housing 3, and the inner diameter of the guide portion 31 gradually decreases. During the movement of the locking assembly 2 towards the second handle 200, the inner wall of the guide portion 31 slides with the first limiting member 22 to drive the first limiting member 22 to extend into the first limiting groove 201 along the through hole 211.

[0096] The inner wall of the guide part 31 can be a slope or an arc surface.

[0097] Specifically, when the locking assembly 2 moves away from the second handle 200, the moving component 21 drives the first limiting member 22 to disengage from the first limiting groove 201 and move closer to the guide portion 31. The first limiting member 22 retracts from the first limiting groove 201 into the through hole 211, and the first limiting member 22 can slide upward along the guide portion 31 to disengage the first limiting member 22 from the first limiting groove 201, thereby causing the locking assembly 2 to switch from locking to unlocking the second handle 200. During this process, the guide portion 31... Part 31 can guide the movement of the first limiting member 22; when the locking assembly 2 moves in the direction close to the second handle 200, the housing 3 drives the first limiting member 22 to slide downward along the guide part 31. During this process, the guide part 31 can guide the movement of the first limiting member 22 to ensure that the first limiting member 22 can smoothly enter the first limiting groove 201 from the through hole 211 and engage with the first limiting groove 201, thereby enabling the locking assembly 2 to switch from unlocking to locking the second handle 200.

[0098] In this embodiment, on the one hand, the housing 3 protects the driving component 1 and the locking component 2, reducing damage to the connecting device 300 from the external environment, isolating the internal and external environments of the connecting device 300, preventing dust and dirt, and extending the service life of the cookware. On the other hand, the guide portion 31 drives the movement of the first limiting member 22 during the locking process between the locking component 2 and the second handle 200, and guides the movement of the first limiting member 22 during the locking and unlocking processes between the locking component 2 and the second handle 200, improving the reliability of the switching between the second handle 200 and the connecting device 300 in the locked and unlocked states.

[0099] In addition, such as Figure 9 As shown, the first limiting groove 201 also includes a first abutting surface 201b, and the first guide slope 201a and the first abutting surface 201b form the first limiting groove 201. When the locking assembly 2 is locked to the second handle 200, the first limiting member 22 can be engaged at the first abutting surface 201b. The first abutting surface 201b can support and limit the first limiting member 22, which helps to improve the connection stability between the locking assembly 2 and the second handle 200.

[0100] In some embodiments, such as Figure 2 and Figure 3 As shown, a first abutment portion 32 is provided inside the housing 3. The first abutment portion 32 is a platform structure extending inward along the radial direction X of the housing 3, and the moving member 21 passes through the first abutment portion 32. Figure 8 As shown, the moving part 21 is provided with a second abutting part 212. The connecting device 300 also includes a first elastic member 4, and along the axial direction of the housing 3, the two ends of the first elastic member 4 abut against the first abutting part 32 and the second abutting part 212 respectively.

[0101] The first elastic element 4 is fitted onto the moving element 21 to prevent it from shaking or shifting, thus improving its installation stability. When an external force is applied, the locking assembly 2 moves relative to the first abutment 32 in a direction away from the second handle 200, i.e., upward along the Z-axis of the housing 3. During this process, the second abutment 212 gradually approaches the first abutment 32, compressing the first elastic element 4 between them. When the external force is removed, the first elastic element 4, under the action of the rebound force, drives the moving element 21 back to its initial position, i.e., downward along the Z-axis of the housing 3, thereby achieving automatic reset of the locking assembly 2.

[0102] In this embodiment, the first elastic element 4 enables the locking component 2 to automatically reset, simplifying the operation steps and further improving the user experience. For example, when the second handle 200 needs to be replaced, the user can first apply external force to drive the locking component 2 to unlock from the original second handle 200, then remove the second handle 200 and insert the new second handle 200 into the housing 3. At this point, the external force is removed, and the locking component 2 can automatically reset under the action of the first elastic element 4, thereby achieving the self-locking effect of the connecting device 300.

[0103] In some embodiments, such as Figure 4 and Figure 5 As shown, the side wall of the moving part 21 is provided with a second guide slope 213a. Specifically, as... Figure 8 As shown, the moving member 21 has a second limiting groove 213, and a second guide slope 213a is located within the second limiting groove 213. The driving assembly 1 includes a driving member 11, which is movably mounted on the surface of the first abutment portion 32 away from the first elastic member 4. As the driving member 11 approaches the moving member 21 radially along the housing 3, the driving member 11 is slidably engaged with the second guide slope 213a to drive the locking assembly 2 away from the second handle 200.

[0104] Specifically, as the driving member 11 moves towards the moving member 21 along the radial direction X of the housing 3 on the first abutment portion 32, the driving member 11 can enter the second limiting groove 213 and slide in cooperation with the second guide inclined surface 213a, applying an upward force along the axial direction Z of the housing 3 to the second guide inclined surface 213a, thereby driving the moving member 21 to move away from the second handle 200, causing the first limiting member 22 to disengage from the first limiting groove 201. At this time, the locking assembly 2 switches from locking to unlocking the second handle 200; when the moving member 21 returns to the first elastic member 4... During the process of approaching the second handle 200 under the action of elastic force, the second guide slope 213a can slide and cooperate with the drive member 11 to drive the drive member 11 away from the moving member 21 along the radial X of the housing 3 on the first abutment part 32, so that the drive member 11 can disengage from the second limiting groove 213, so as to release the limiting effect of the drive member 11 on the moving member 21, so that the moving member 21 can continue to approach the second handle 200 until the moving member 21 drives the first limiting member 22 into the first limiting groove 201 for engagement, at which time the locking component 2 switches the second handle 200 from unlocked to locked.

[0105] In this embodiment, the driving member 11 and the moving member 21 are slidably engaged to lock and unlock the second handle 200 of the control locking assembly 2. The second guide slope 213a guides the movement of the driving member 11, improving the reliability of the second handle 200 and the connecting device 300 switching between the locked and unlocked states.

[0106] In addition, such as Figure 4 and Figure 5 As shown, the second limiting groove 213 also includes a second abutment surface 213b, and the second guide slope 213a and the second abutment surface 213b form the second limiting groove 213. During the movement of the moving member 21 away from the second handle 200, the driving member 11 can slide along the second guide slope 213a to abut against the second abutment surface 213b. At this time, the driving member 11 can restrict the moving member 21 from continuing to move. At the same time, the second abutment surface 213b can also support and limit the driving member 11, which helps to improve the stability of the connecting device 300 and the second handle 200 in the unlocked state.

[0107] In this embodiment, the specific structure of the driving component 11 can be a ball bearing, and the number of driving components 11 can be two. Setting the driving component 11 as a ball bearing effectively reduces the frictional resistance of the driving component 11 during the movement of the driving assembly 1 relative to the moving component 21, thereby improving the switching rate between the driving assembly 1 and the locking assembly 2 in the locked and unlocked states. Furthermore, the appropriate number of driving components 11 improves the connection stability between the second handle 200 and the connecting device 300.

[0108] In other embodiments, the driving element 11 may also be a slider or other structure, and the specific number of driving elements 11 may also be one, three, or other numbers. This application does not limit the specific structure and specific number of driving elements 11.

[0109] In some embodiments, such as Figures 2-5 As shown, the drive assembly 1 also includes a pressing member 12. One end of the pressing member 12 is detachably connected to the first handle 100, and at least a portion of the other end is installed inside the housing 3. A third guide slope 122 is provided at the end of the pressing member 12 away from the first handle 100. The third guide slope 122 is used to slide and engage with the drive member 11 when the pressing member 12 is pressed, so as to drive the drive member 11 to move closer to the second handle 200 along the radial direction X of the housing 3.

[0110] Specifically, when the pressing member 12 is pressed down along the axial direction Z of the housing, the third guide slope 122 gradually approaches the driving member 11 and forms a sliding engagement with the driving member 11, so as to drive the driving member 11 to move towards the moving member 21 on the first abutment part 32, so that the driving member 11 can enter the second limiting groove 213 and achieve a sliding engagement with the second guide slope 213a.

[0111] In this embodiment, the third guide slope 122 guides and drives the movement of the drive member 11, enabling the drive member 11 to accurately drive the moving member 21, thereby improving the movement stability between the drive member 11 and the moving member 21 and improving the reliability of the second handle 200 and the connecting device 300 in switching between the locked and unlocked states.

[0112] In some embodiments, such as Figure 2 and Figure 3 As shown, the drive assembly 1 also includes a second elastic member 5, which abuts against the pressing member 12 and the moving member 21 at both ends along the axial direction of the housing 3.

[0113] When the pressing member 12 is pressed downward along the axial direction Z of the housing 3, the pressing member 12 moves toward the moving member 21, and the second elastic member 5 is compressed. At this time, the locking component 2 switches the second handle 200 from locked to unlocked. When the external force on the pressing member 12 is removed, the pressing member 12 and the moving member 21 move away from each other under the action of the rebound force of the second elastic member 5, so that the moving member 21 moves toward the second handle 200 until it returns to its initial position.

[0114] In this embodiment, the second elastic element 5 enables the pressing element 12 and the moving element 21 to automatically reset, simplifying the operation steps and further improving the user experience.

[0115] In addition, such as Figure 8As shown, the moving member 21 has a third receiving groove 216 for accommodating the second elastic member 5. The third receiving groove 216 can prevent the second elastic member 5 from shifting or shaking, thereby improving the connection reliability and movement stability of the second elastic member 5 between the pressing member 12 and the moving member 21.

[0116] In some embodiments, such as Figure 4 and Figure 5 As shown, a limiting protrusion 121 is provided on the side wall of the pressing member 12. A retaining ring 214 is installed at the end of the moving member 21 away from the second handle 200. The retaining ring 214 and the limiting protrusion 121 are matched in a limiting engagement along the axial direction Z of the moving member 21.

[0117] In this embodiment, as the moving part 21 and the pressing part 12 move away from each other under the rebound force of the second elastic member 5, the limiting protrusion 121 can engage with the retaining ring 214 to prevent the moving part 21 from disengaging from the pressing part 12 during its movement in the direction close to the second handle 200. Furthermore, the retaining ring 214 reduces the risk of wear caused by direct contact between the moving part 21 and the pressing part 12, thus extending the service life of the connecting device 300.

[0118] Specifically, such as Figure 2 As shown, the pressing member 12 has a second receiving groove 124. The end of the moving member 21 away from the second handle 200 can extend into the second receiving groove 124 and move along the axial direction Z of the housing 3 within the second receiving groove 124. This reduces the risk of the moving member 21 wobbling in the radial direction X of the housing 3 and helps improve the movement stability of the moving member 21. The second elastic member 5 is installed in the second receiving groove 124.

[0119] In the above embodiments, such as Figure 1 and Figure 10 As shown, the outer side wall of the housing 3 is also provided with a support portion 33, which protrudes outward relative to the housing 3.

[0120] In this embodiment, the support portion 33 enables the cookware to be placed stably on a flat surface or hung on the side wall of other kitchen utensils such as pots, thereby improving the applicability of the cookware and enhancing the user experience.

[0121] The support portion 33 may be a part of the housing 3 that protrudes outward, or it may be a ring structure. This application does not limit the specific structure of the support portion 33.

[0122] In some embodiments, the pressing member 12 further includes an external thread 123, and the pressing member 12 is threadedly connected to the first handle 100, that is, the first handle 100 and the connecting device 300 are threadedly connected. In other embodiments, the connection between the first handle 100 and the connecting device 300 can also be by snap-fit, riveting, or other methods. This application does not limit the specific connection method between the first handle 100 and the connecting device 300.

[0123] The specific working process of the cooking utensil in this embodiment is as follows:

[0124] When users need cooking utensils Figure 2 Switching to the locked state Figure 3 When the device is in the unlocked state, the first handle 100 is pressed along the axial direction Z of the housing 3 towards the direction close to the second handle 200. The first handle 100 drives the pressing member 12 to move along the axial direction Z of the housing 3 towards the direction close to the moving member 21. The second elastic member 5 is compressed, and the limiting protrusion 121 moves away from the retaining ring 214. The third guide slope 122 drives the driving member 11 to move along the radial direction X of the housing 3 towards the direction close to the moving member 21. The driving member 11 enters the second limiting groove 213 along the second guide slope 213a. Then, the driving member 11 drives the moving member 21 to move along the axial direction Z of the housing 3 towards the direction away from the second handle 200. The first elastic member 4 is compressed. As the first limiting member 22 moves along the axial direction Z of the housing 3 with the moving member 21, it can disengage from the first limiting groove 201 under the drive of the first guide slope 201a. At this time, the locking component 2 is unlocked from the second handle 200, and the second handle 200 can be disengaged from the connecting device 300, realizing the disassembly of the second handle 200. At this point, when pressing the first handle 100 stops, the connecting device 300 can return to its original position under the restoring force of the first elastic element 4 and the second elastic element 5. Figure 2 Location.

[0125] When the user needs to install the second handle 200, the first handle 100 is pressed along the axial direction Z of the housing 3 towards the direction close to the second handle 200, so that the drive assembly 1 and the locking assembly 2 are in position. Figure 3 In the unlocked state, the second handle 200 is then placed into the housing 3. At this time, when the first handle 100 is stopped, the connecting device 300 can automatically reset under the rebound force of the first elastic member 4 and the second elastic member 5. During this process, the first limiting member 22 can enter the first limiting groove 201 along the first guide slope 201a under the drive of the guide part 31 and engage with the second handle 200. At this time, the locking component 2 locks with the second handle 200, realizing the installation of the second handle 200.

[0126] The above descriptions are merely specific implementations of the embodiments of this application, but the protection scope of the embodiments of this application is not limited thereto. Any changes or substitutions within the technical scope disclosed in the embodiments of this application should be covered within the protection scope of the embodiments of this application. Therefore, the protection scope of the embodiments of this application should be determined by the protection scope of the claims.

Claims

1. A cooking appliance characterized by, The cooking utensils include: First handle (100); Second handle (200); The connecting device (300) includes a driving component (1) and a locking component (2). One end of the driving component (1) is detachably connected to the first handle (100), and the other end is used to drive the locking component (2) to move relative to the second handle (200) so that the locking component (2) locks or unlocks with the second handle (200). Wherein, the first handle (100) is provided with a functional head at the end away from the connecting device (300), and / or, the second handle (200) is provided with a functional head at the end away from the connecting device (300).

2. The cooker according to claim 1, characterized in that The second handle (200) has a first limiting groove (201) on its side wall; The locking component (2) includes a moving part (21) and a first limiting part (22). The side wall of the moving part (21) is provided with a through hole (211), and the first limiting part (22) is movably installed in the through hole (211). The first limiting member (22) is used to extend into the first limiting groove (201) along the through hole (211) during the movement of the locking assembly (2) relative to the second handle (200), so that the first limiting member (22) engages with the first limiting groove (201); The first limiting member (22) is also used to retract into the through hole (211) during the movement of the locking assembly (2) relative to the second handle (200) so that the first limiting member (22) is disengaged from the first limiting groove (201).

3. The cooker according to claim 2, characterized in that The first limiting groove (201) is provided with a first guide slope (201a), and the first guide slope (201a) slides in cooperation with the first limiting member (22); During the movement of the locking component (2) away from the second handle (200), the first guide slope (201a) slides with the first limiting member (22) to drive the first limiting member (22) to retract into the through hole (211).

4. The cooker according to claim 2, characterized in that The connecting device (300) further includes a housing (3), and the locking component (2) is slidably installed in the housing (3); The housing (3) is provided with a guide portion (31) which is oriented towards the second handle (200) along the axial direction of the housing (3), and the inner diameter of the guide portion (31) gradually decreases. As the locking component (2) moves closer to the second handle (200), the inner wall of the guide portion (31) slides with the first limiting member (22) to drive the first limiting member (22) to extend into the first limiting groove (201) along the through hole (211).

5. The cooker according to claim 4, characterized in that The housing (3) is provided with a first abutting part (32), and the moving part (21) passes through the first abutting part (32); The moving part (21) is provided with a second abutting part (212); The connecting device (300) further includes a first elastic element (4), which abuts against the first abutting part (32) and the second abutting part (212) respectively along the axial direction of the housing (3).

6. The cooker according to claim 5, characterized in that The side wall of the moving part (21) is provided with a second guide slope (213a); The drive assembly (1) includes a drive member (11) which is movably mounted on the side surface of the first abutment portion (32) away from the first elastic member (4). As the drive member (11) approaches the moving member (21) radially along the housing (3), the drive member (11) is slidably engaged with the second guide ramp (213a) to drive the locking assembly (2) away from the second handle (200).

7. The cookware according to claim 6, characterized in that, The drive assembly (1) further includes a pressing member (12), one end of which is detachably connected to the first handle (100), and the other end is provided with a third guide slope (122); The third guide ramp (122) is used to slide with the drive member (11) when the pressing member (12) is pressed, so as to drive the drive member (11) to move closer to the second handle (200) along the radial direction of the housing (3).

8. The cooker according to claim 7, characterized in that The drive assembly (1) further includes a second elastic element (5) along the axial direction of the housing (3), with both ends of the second elastic element (5) abutting against the pressing element (12) and the moving element (21) respectively.

9. The cooker according to claim 7, characterized in that, The side wall of the pressing member (12) is provided with a limiting protrusion (121); A retaining ring (214) is installed at one end of the moving part (21) away from the second handle (200), and the retaining ring (214) and the limiting protrusion (121) are engaged in a limiting fit along the axial direction of the moving part (21).

10. The cooker according to claim 4, characterized in that, The outer side wall of the housing (3) is also provided with a support portion (33), which protrudes outward relative to the housing (3).