Detachable pot handle
By designing a detachable handle connection structure, the problems of space occupation and overheating under high temperature conditions caused by non-detachable handles are solved, achieving convenient disassembly for one-handed operation and safe installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO BAISEN KITCHENWARE CO LTD
- Filing Date
- 2025-08-04
- Publication Date
- 2026-07-07
AI Technical Summary
Existing non-detachable cookware handles take up a lot of space, are inconvenient to transport, and are prone to overheating in high-temperature environments. Furthermore, detachable handles cannot be operated with one hand.
A detachable pot handle was designed, which allows for detachable connection between the handle and the pot body through a connecting structure. The combination of a pressing part, a mounting part, and a safety block enables one-handed operation and safe installation.
It enables convenient disassembly and assembly of the handle and the pot body, reliable one-handed operation, and prevents accidental disassembly during use. The connection structure is simple and stable.
Smart Images

Figure CN224461586U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of cookware handles, and in particular to a detachable pot handle. Background Technology
[0002] With the increasing variety of cookware available today, cookware typically comes with a handle, which is usually fixed to the cookware and is therefore non-removable. Non-removable handles have several problems, such as taking up a lot of kitchen space, being very inconvenient during packaging and transportation, and being prone to overheating due to heat conduction when heating. To address these issues, detachable handles have emerged on the market. While these detachable handles achieve the purpose of detachment, they cannot be operated with one hand, making them unsuitable for hot cookware or confined spaces. Utility Model Content
[0003] The purpose of this invention is to design a detachable pot handle to overcome the shortcomings of the above-mentioned technology.
[0004] This utility model designs a detachable pot handle, including a pot body and a handle. The handle is detachably mounted to the pot body via a connecting structure. The connecting structure includes a fixing base, a mounting part, a pressing part, and a safety block. The fixing base is connected to the side of the pot body and has a tongue. The front end of the handle has a mounting hole, and the mounting part is retractably connected to the mounting hole. The mounting part has a hook that engages with the tongue. The pressing part is located inside the mounting hole and connected directly above the mounting part. When the pressing part is pressed down, the pressing part drives... When the mounting part moves, the hook and tongue are disengaged, and the handle is separated from the pot body. When the pressing part is not pressed down, the mounting part returns to the position where the hook and tongue are engaged, and the handle is connected to the pot body. The safety block is slidably connected to the pressing part. When the safety block slides to a position where it is not aligned with the top opening of the mounting hole, the pressing part and the safety block are in a non-pressable state due to the obstruction of the handle. When the safety block slides to a position aligned with the top opening of the mounting hole, the safety block, the pressing part, and the mounting part are in a pressable state.
[0005] Preferably, the fixing base includes a connector, a fireproof ring is provided between the connector and the pot body, the fireproof ring is fixedly connected to the pot body, the front end face of the handle has a port communicating with the mounting hole, the front end of the fireproof ring is inserted into the port to form an opening, the connector is located in the port and one end is adapted to the opening, the other end extends forward into the mounting hole to form a tongue, the bottom of the tongue is provided with a groove; a hook extends from the front of the mounting part, the hook is located below the tongue and is inserted into the groove from bottom to top to form a hook connection.
[0006] Further optimization includes a guide post at the bottom of the mounting part, a guide hole that forms an interference fit with the guide post in the mounting hole, and a first elastic element between the mounting hole and the mounting part, so that the mounting part can perform vertical and horizontal restorative displacement along the mounting hole.
[0007] Further optimization involves providing a limiting block on the side of the mounting part, and a stepped surface on the inner wall of the mounting hole that forms a limiting position with the limiting block, so that the stepped surface forms a downward limiting position on the limiting block, thereby allowing the stepped surface to form a downward limiting position on the mounting block.
[0008] Further optimization involves providing a connecting block at the bottom of the pressing part, a bent end on the connecting block, and a slot on the limiting block. The bent end passes through the slot to form a buckle, thereby creating a buckle connection between the limiting block and the connecting block.
[0009] Preferably, the pressing part is provided with a sliding groove, the safety block is provided with a slider that slides with the sliding groove, and a second elastic element (automatic normally closed reset) is provided between the safety block and the pressing part.
[0010] Preferably, the pressing part has a locking step at the edge of the mounting hole, and the safety block has a corresponding stepped surface. After the safety block moves backward into place, the locking step and the stepped surface form a limit to prevent the safety block from moving backward and disengaging from the pressing part.
[0011] Further optimization involves providing a first stop hole and a second stop hole along the sliding direction of the safety block. The safety block has a stop protrusion that mates with the first and second stop holes. When the safety block moves to engage the stop protrusion with the first stop hole, the safety block and the top opening of the mounting hole are locked in a misaligned state, forming a safety lock state. When the safety block moves to engage the stop protrusion with the second stop hole, the safety block is locked in a state aligned with the top opening of the mounting hole, forming a safety unlock state.
[0012] The technical advantage of this invention is that the handle and the pot body are detachably connected through a connecting structure. The connecting structure mainly includes an installation part, a pressing part, and a safety block. By pressing down on the pressing part, the pressing part moves the installation part downward, causing the installation part to disengage from the fixed seat of the pot body. This allows the handle and the connecting structure to be detached together. In other words, pressing down on the pressing part is sufficient for detachment. When the handle needs to be installed, simply align the end of the handle with the fixed seat. This is very convenient and can be operated with one hand. At the same time, the pressing part is equipped with a safety block. Pressing can only be performed by releasing the safety block, making the handle very safe during use after installation. It will not be disassembled due to accidental contact with the pressing part. Furthermore, the connecting structure is simple, easy to implement, and stable. Attached Figure Description
[0013] Figure 1 This is an overall structural diagram;
[0014] Figure 2 This is an exploded view of the pot body and the fixed base.
[0015] Figure 3 This is an exploded view of the overall structure of Example 1;
[0016] Figure 4 This is an overall structural diagram of the connection structure in Examples 1 and 2;
[0017] Figure 5 These are exploded views of the structure between the fixing base and the mounting part in Examples 1 and 2.
[0018] Figure 6 This is a structural diagram of the handle mounting hole in Embodiment 1;
[0019] Figure 7 This is a bottom view of the safety block in Embodiment 1;
[0020] Figure 8 This is a cross-sectional view of the overall structure of Embodiment 1;
[0021] Figure 9 This is a cross-sectional view of the overall structure of Embodiment 2;
[0022] Figure 10 This is an exploded view of the overall structure of Example 2;
[0023] Figure 11 This is a bottom view of the safety block structure in Embodiment 2;
[0024] Figure 12 This is a top view of the pressing part in Embodiment 2.
[0025] In the diagram: 1. Pot body; 11. Mounting protrusion; 12. Screw hole; 13. Fastener; 2. Handle; 21. Port; 22. Mounting hole; 23. Guide hole; 24. Stepped surface; 3. Fixing base; 32. Connector; 33. Tongue; 34. Slot; 4. Mounting part; 41. Hook; 44. Limiting block; 45. Slot; 5. Pressing part; 52. Connecting block; 53. Bending end; 54. Sliding groove; 55. Mounting groove; 6. Safety block; 61. Sliding block; 63. Pressing block; 7. Fireproof ring; 8. Guide post; 9. First elastic element; 10. Second elastic element; 15. Locking step; 16. First stop hole; 17. Second stop hole; 18. Stop protrusion. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model are within the protection scope of the present utility model.
[0027] Example 1
[0028] This embodiment includes a pot body 1 and a handle 2. The handle 2 is detachably mounted on the pot body 1 through a connecting structure. The connecting structure includes a fixing base 3, a mounting part 4, a pressing part 5, and a safety block 6. The fixing base 3 is connected to the side of the pot body 1. The front end of the handle 2 is provided with a mounting hole 22. The opening of the mounting hole 22 is located on the upper side of the handle 2. The front end of the handle 2 is also provided with a port 21, which communicates with the mounting hole 22.
[0029] The fixing base 3 includes a connector 32. A fireproof ring 7 is provided between the connector 32 and the pot body 1. The rear end of the fireproof ring 7 abuts against the outer peripheral wall of the pot body 1. The front end of the fireproof ring 7 is inserted into the port 21 to form a fit. That is, the shape of the port 21 matches the shape of the front end of the fireproof ring 7, so that the front end of the fireproof ring 7 is inserted into the port 21 to form a fit. The port 21 is an open design. The connector 32 is located in the port 21. One end of the connector 32 is inserted into the opening of the port 21 to form a fit connection with the port 21. The other end extends forward into the mounting hole 22 to form a tongue 33. A through hole is provided in the center of the connector 32. A fastener 13, such as a bolt or screw, is inserted through the through hole. A mounting protrusion 11 is fixedly connected to the outer peripheral wall of the pot body 1. A screw hole 12 is provided on the mounting protrusion 11. The fastener 13 passes through the through hole and is screwed into the screw hole 12, thereby fixing the fixing base 3 to the pot body 1.
[0030] The bottom of the tongue 33 is provided with a slot 34, and a hook 41 extends from the front of the mounting part 4. The hook 41 is located below the tongue 33 and is inserted into the slot 34 from bottom to top to form a hook connection. When the fixing seat 3 is inserted into the port 21 of the handle 2, a protrusion extends from the inner wall of the port 21. The tongue 33 is bent and abuts against the protrusion. With the addition of the connector 32, it is fixed to the end of the port 21, thereby forming an axial limit on the tongue 33 and preventing the fixing block from detaching from the port 21.
[0031] The bottom of the mounting part 4 is provided with a guide post 8, which is vertically arranged. The mounting hole 22 is provided with a guide hole 23 that forms an interference fit with the guide post 8. The guide post 8 is inserted into the guide hole 23, so that the mounting part 4 can move up and down along the mounting hole 22 under the guidance of the guide post 8. In this embodiment, the guide post 8 is screwed onto the mounting part 4 by bolts.
[0032] A first elastic element 9 is provided between the mounting hole 22 and the mounting part 4. The first elastic element 9 is a tower-shaped spring, which is sleeved on the outside of the guide post 8. One end of the spring abuts against the bottom of the mounting hole 22, and the other end abuts against the bottom of the mounting part 4, so that the mounting part 4 can move up and down along the mounting hole 22. Under the action of the first elastic element 9, the hook part 41 is in a state of hooking with the tongue part 33.
[0033] Furthermore, two symmetrical limiting blocks 44 are provided on the side of the mounting part 4. The limiting blocks 44 are integrated with the mounting part 4. The inner wall of the mounting hole 22 is provided with a stepped surface 24 that forms a limit with the limiting blocks 44, so that the stepped surface 24 limits the downward movement of the limiting blocks 44, thereby limiting the downward movement of the mounting block, so that the mounting part 4 will not touch the bottom when it moves down along the mounting hole 22.
[0034] The pressing part 5 is located inside the mounting hole 22 and connected directly above the mounting part 4. In this embodiment, the pressing part 5 is provided with a sliding groove 54, which is a cylindrical groove. The safety block 6 is provided with a slider 61 that slides with the sliding groove 54. The slider 61 is cylindrical, which facilitates sliding. The pressing part 5 is provided with a mounting groove 55, and a second elastic element 10 is provided in the mounting groove 55. The mounting groove 55 communicates with the sliding groove 54. The second elastic element 10 is a spring, an elastic body, or a flexible silicone material. The safety block 6 is slidably connected to the pressing part 5, and the sliding between the safety block 6 and the pressing part 5 is elastic sliding due to the action of the second elastic element 10. The bottom of the safety block 6 is provided with a pressing block 63, which extends into the mounting groove 55 to form abutment, so that when the safety block 6 is pressed down, the pressing part 5 can be driven to press down together through the pressing block 63.
[0035] Specifically, in the initial state, the hook 41 and the tongue 33 form a hook connection, and the handle 2 is connected to the pot body 1. At this time, the safety block 6 is offset from the mounting hole 22. That is, under the action of the second elastic member 10, the safety block 6 slides to the top edge of the mounting hole 22 above the handle 2 part. Under the obstruction of the surface of the handle 2, the pressing part 5 together with the safety block 6 is in a state that cannot be pressed down. This is the locked state (effectively preventing the possibility of misoperation).
[0036] When the safety block 6 overcomes the action of the second elastic element 10 and slides to directly above the pressing part 5, it is in the unlocked state. At this time, the safety block 6, the pressing part 5, and the mounting part 4 are in a pressable state. Then, the pressing part 5 is pressed down, and the pressing part 5 drives the mounting part 4 to press down. The mounting part 4 overcomes the force of the first elastic element 9 and moves down. The mounting part 4 drives the hook part 41 to move down, and the hook part 41 separates from the tongue part 33 to disengage. At this time, the handle 2 is separated from the pot body 1. When the pressing part 5 is not pressed down, the mounting part 4, under the restoring force of the first elastic element 9, causes the hook part 41 to move up again to form a hook with the tongue part 33. At this time, the handle 2 is connected to the pot body 1. At the same time, under the restoring force of the second elastic element 10, the safety block 6 slides back to above the handle 2 to form an automatic lock.
[0037] Furthermore, the pressing part 5 is provided with a locking step 15 at the edge of the mounting hole 22, and the safety block 6 is provided with a corresponding stepped surface. After the safety block 6 moves backward, the locking step 15 and the stepped surface form a limit to prevent the safety block 6 from moving backward and disengaging from the pressing part 5.
[0038] Furthermore, a connecting block 52 is provided at the bottom of the pressing part 5, and a bent end 53 is provided on the connecting block 52. A slot 45 is provided on the limiting block 44. After the bent end 53 passes through the slot 45, it forms a buckle, so that the limiting block 44 and the connecting block 52 form a buckle connection, which facilitates the connection between the mounting part 4 and the pressing part 5.
[0039] Example 2
[0040] The basic content is the same as that of Implementation No. 1, except that the second elastic member 10 between the safety block 5 and the pressing part 5 is not provided, while the pressing part 5 is provided with a first stop hole 16 and a second stop hole 17 along the sliding direction of the safety block 6. The safety block 6 is provided with a stop protrusion that cooperates with the first stop hole 16 and the second stop hole 17. When the safety block 6 moves to the point where the stop protrusion 18 cooperates with the first stop hole 16, the top opening of the safety block 6 and the mounting hole 22 are locked in a misaligned state. At this time, the pressing part 5 and the safety block 6 are in a non-pressable state, which is the manual locking state. When the safety block 6 moves to the point where the stop protrusion 18 cooperates with the second stop hole 17, the safety block 6 is locked in a state aligned with the top opening of the mounting hole 22. At this time, the pressing part 5 and the safety block 6 are in a pressable state, which is the unlocked state.
[0041] In this embodiment, both the first stop hole 16 and the second stop hole 17 are hemispherical blind holes, and the stop protrusion 18 is a corresponding hemispherical protrusion. By manually pushing the safety block 6 back and forth, the stop protrusion slides into the first stop hole 16 or the second stop hole 17, which achieves both locking and sliding. Of course, the first stop hole 16 and the second stop hole 17 can be other shapes that facilitate locking and sliding, such as elliptical, frustum-shaped, or blind hole shapes with guide inner walls, and the stop protrusion 18 can be a corresponding shape.
[0042] Therefore, in this embodiment, the safety block 6 is manually driven to lock in the locked or unlocked state, i.e., manually normally closed, while in the first embodiment, it is automatically normally closed under the action of the second elastic element 10.
[0043] This utility model is not limited to the above-described preferred embodiments. Anyone can derive other forms of products under the guidance of this utility model. However, regardless of any changes made in their shape or structure, any technical solution that is the same as or similar to this application falls within the protection scope of this utility model.
Claims
1. A detachable pot handle, characterized in that, The device includes a pot body (1) and a handle (2). The handle (2) is detachably mounted on the pot body (1) via a connecting structure. The connecting structure includes a fixing base (3), a mounting part (4), a pressing part (5), and a safety block (6). The fixing base (3) is connected to the side of the pot body (1) and has a tongue (33). The front end of the handle (2) has a mounting hole (22). The mounting part (4) is retractably connected to the mounting hole (22). The mounting part (4) has a hook (41) that hooks with the tongue (33). The pressing part (5) is located inside the mounting hole (22) and connected directly above the mounting part (4). When the pressing part (5) is pressed down, the pressing part (5) drives the mounting part (4) to move, causing the hook part (41) to disengage from the tongue part (33), at which time the handle (2) is separated from the pot body (1); when the pressing part (5) is not pressed down, the mounting part (4) returns to the position where the hook part (41) and the tongue part (33) form a hook, at which time the handle (2) is connected to the pot body (1); The safety block (6) is slidably connected to the pressing part (5). When the safety block (6) slides to a position where it is not aligned with the top opening of the mounting hole (22), the pressing part (5) and the safety block (6) are in a non-pressable state due to the obstruction of the handle (2). When the safety block (6) slides to a position aligned with the top opening of the mounting hole (22), the safety block (6), the pressing part (5), and the mounting part (4) are in a pressable state.
2. The detachable pot handle according to claim 1, characterized in that, The fixed base (3) includes a connector (32), and a fireproof ring (7) is provided between the connector (32) and the pot body (1). The fireproof ring (7) is fixedly connected to the pot body (1). The front end face of the handle (2) is provided with a port (21) communicating with the mounting hole (22). The front end of the fireproof ring (7) is inserted into the port (21) and forms an opening. The connector (32) is located in the port (21) and one end is adapted to the opening. The other end extends forward into the mounting hole (22) to form a tongue (33). The bottom of the tongue (33) is provided with a slot (34). The front of the mounting part (4) extends a hook (41). The hook (41) is located below the tongue (33) and is inserted into the slot (34) from bottom to top to form a hook connection.
3. A detachable pot handle according to claim 2, characterized in that, The bottom of the mounting part (4) is provided with a guide post (8), and the mounting hole (22) is provided with a guide hole (23) that forms an interference fit with the guide post (8). A first elastic element (9) is provided between the mounting hole (22) and the mounting part (4), so that the mounting part (4) can move up and down along the mounting hole (22).
4. A detachable pot handle according to claim 3, characterized in that, The mounting part (4) is provided with a limiting block (44) on its side, and the inner wall of the mounting hole (22) is provided with a stepped surface (24) that forms a limiting with the limiting block (44), so that the stepped surface (24) forms a downward limiting on the limiting block (44), thereby making the stepped surface (24) form a downward limiting on the mounting block.
5. A detachable pot handle according to claim 4, characterized in that, The bottom of the pressing part (5) is provided with a connecting block (52), the connecting block (52) is provided with a bent end (53), the limiting block (44) is provided with a slot (45), the bent end (53) passes through the slot (45) to form a buckle, so that the limiting block (44) and the connecting block (52) form a buckle connection.
6. A detachable pot handle according to claim 1, characterized in that, The pressing part (5) is provided with a sliding groove (54), and the safety block (6) is provided with a slider (61) that slides with the sliding groove (54). A second elastic element (10) is also provided between the safety block (6) and the pressing part (5).
7. A detachable pot handle according to claim 1, characterized in that, The pressing part (5) has a locking step (15) at the edge of the mounting hole (22), and the safety block (6) has a corresponding step surface. After the safety block (6) moves backward into place, the locking step (15) and the step surface form a limit to prevent the safety block (6) from moving backward and disengaging from the pressing part (5).
8. A detachable pot handle according to claim 6, characterized in that, The pressing part (5) is provided with a first stop hole (16) and a second stop hole (17) along the sliding direction of the safety block (6). The safety block (6) is provided with a stop protrusion (18) that cooperates with the first stop hole (16) and the second stop hole (17). When the safety block (6) moves to make the stop protrusion (18) cooperate with the first stop hole (16), the top opening of the safety block (6) and the mounting hole (22) are locked in a misaligned state, forming a safety lock state. When the safety block (6) moves to make the stop protrusion (18) cooperate with the second stop hole (17), the safety block (6) is locked in a state aligned with the top opening of the mounting hole (22), forming a safety unlock state.