Patent Application
20250083875
The present disclosure claims priority of Chinese Patent Application No.202311166000.4 filed on Sep. 11, 2023, the entire contents of which are hereby incorporated by reference.
The present disclosure relates to the technical field of drinking vessel manufacture, in particular to a lid structure.
Currently, lids of most of drinking vessels on the market are single-opening lids. Cold and hot drinks of bottle lids cannot be switched on the lids at the same time, and all parts cannot be disassembled, which does not facilitate cleaning.
The object of the present disclosure is to provide a lid structure for solving the technical problem that cold and hot drinks of the current lid structure cannot be switched on a lid, and all parts cannot be disassembled, which does not facilitate cleaning.
In order to solve the above-mentioned problem, according to an aspect of the present disclosure, an embodiment of the present disclosure provides a lid structure, wherein the lid structure includes:
In some implementations, the lid body is provided with a shaft hole, a pin shaft penetrating into the shaft hole is constructed on the rotating cover, a square end is constructed on an end of the pin shaft extending to the lid body away from the rotating cover, the driving assembly includes a chuck, and the chuck is provided with a square hole cooperating with the square end.
In some implementations, the square end is provided with an internal shrinkage groove passing through the radial direction of the pin shaft, a clamping bulge is disposed on an outer wall, facing away from the internal shrinkage groove, of the square end, and the clamping bulge is located on a side, away from the lid body, of the chuck.
In some implementations, a toggling bulge structure is constructed on a side, away from the lid body, of the chuck, and the toggling bulge structure is provided with a driving slope gradually away from the lid body so as to drive the plugging head to be away from the first liquid outlet during rotation.
In some implementations, the plugging assembly includes a base member, a cantilever, and a first elastic member, the base member is detachably disposed on the lid body, the cantilever is rotatably disposed on the base member and is located between the base member and the lid body, the plugging head is disposed on an end, away from the base member, of the cantilever, and the first elastic member is disposed between the base member and the cantilever, so that the plugging head abuts against the first liquid outlet, and when the chuck rotates, the driving slope is in sliding fit with the cantilever.
In some implementations, a pair of convex lugs is disposed on a side, facing the rotating cover, of the base member, the lugs are provided with splicing holes, splicing shafts are disposed on two sides, facing away from each other, of the cantilever, the splicing shafts are inserted in the splicing holes, one end of the first elastic member is disposed on the base member, and the other end of the first elastic member abuts against a side, facing the base member, of the cantilever.
In some implementations, the lugs are provided with baffles, abutting bulges are constructed on an end, close to the base member, of the cantilever, and when the first liquid outlet is plugged by the plugging head, the abutting bulges abut against the baffles.
In some implementations, a guide groove passing through the radial direction of the lid body is formed in a side, away from the cantilever, of the base member, two sliding blocks are disposed in the guide groove, a second elastic member is disposed between the two sliding blocks, two buckling positions are disposed on an inner wall of the lid body, a supporting part is disposed on a side, facing the rotating cover, of each of the buckling positions on the inner wall of the lid body, the base member is located between the supporting part and the buckling position, and ends, facing away from each other, of the two sliding blocks are respectively clamped on sides, facing the base member, of the two buckling positions.
In some implementations, a limiting cover plate is buckled on a side, away from the cantilever, of the base member, the limiting cover plate is provided with a limiting groove, and the two sliding blocks are provided with toggling bulges protruding out of the limiting groove; and/or a partition plate is constructed in the guide groove, the two sliding blocks are respectively disposed on two sides of the partition plate, and the second elastic member is clamped between the partition plate and each of the two sliding blocks.
In some implementations, a sealing ring is disposed between an outer wall of the pin shaft and an inner wall of the shaft hole; and/or an air guide hole is formed in the lid body, a sealing member for plugging the air guide hole is disposed on a side, away from the lid body, of the chuck, and when the suction nozzle rebounds at the misaligned gap to reset, the air guide hole is misaligned to the sealing member; and/or the lid structure further includes a portable lifting handle, and two ends of the portable lifting handle are rotatably disposed on an outer wall of the lid body.
In some implementations, the rotating cover is provided with a first blocking part, a toggling point groove and a second blocking part sequentially disposed in a circumferential direction; the lid body is provided with a toggling point; when the suction nozzle rebounds at the misaligned gap to reset, the toggling point abuts against a side, facing the toggling point groove, of the first blocking part; when the misaligned gap is connected to the first liquid outlet, the toggling point abuts against a side, facing the toggling point groove, of the second blocking part; and the toggling point groove is located between the first blocking part and the second blocking part.
Compared with the prior art, the lid structure provided by the present disclosure at least has the following beneficial effects: the embodiment of the present disclosure discloses the lid structure, wherein the first liquid outlet and the second liquid outlet are constructed in the lid body of the lid structure; specifically, the lid structure can be disposed on a bottle in a way such as screwing, both of the first liquid outlet and the second liquid outlet communicate with a liquid storage cavity in the bottle, and the second liquid outlet is provided with the suction nozzle; when a water temperature is appropriate, a user keeps the suction nozzle in the mouth to directly suck a liquid, such as water, in the liquid storage cavity in the bottle; and when the water temperature is overhigh, the water can be poured into a vessel through the first liquid outlet and drunk when the temperature is appropriate, and therefore, by the lid structure, cold and hot drinks can be switched on a lid at the same time.
The rotating cover of the lid structure is rotatably disposed on the side, facing the suction nozzle, of the lid body so as to be capable of bending the suction nozzle during rotation, thereby preventing the liquid, such as water, in the liquid storage cavity in the bottle from being leaked from the suction nozzle when the liquid is not drunk; in addition, the rotating cover is provided with the misaligned gap, when it is necessary to drink through the suction nozzle, the rotating cover can be rotated until the suction nozzle is exposed out of the misaligned gap, the suction nozzle is generally made of an elastic material, such as silica gel, with elasticity, and therefore, the suction nozzle rebounds at the misaligned gap to reset to an upright state, which provides convenience for the user to drink through the suction nozzle.
The plugging assembly of the lid structure is detachably disposed on the side, away from the rotating cover, of the lid body, the plugging assembly is provided with the plugging head capable of plugging the first liquid outlet, and the first liquid outlet is plugged by the plugging head of the plugging assembly, so that the liquid is prevented from being leaked from the first liquid outlet when not drunk.
The driving assembly of the lid structure is capable of synchronously rotating with the rotating cover and driving the plugging head to be away from the first liquid outlet when the misaligned gap is at least partially connected to the first liquid outlet, that is, the rotating cover can be rotated to drive the driving assembly to rotate; and when it is necessary to drink or pour out the liquid through the first liquid outlet, the rotating cover is rotated until the misaligned gap is at least partially connected to the first liquid outlet, at the moment, the driving assembly can drive the plugging head to be away from the first liquid outlet, so that the first liquid outlet is in a connected state.
All of the rotating cover, the plugging assembly and the driving assembly are detachably disposed on the lid body, thereby facilitating cleaning.
It can be seen that, by the lid structure, cold and hot drinks can be switched on a lid at the same time, and all parts can be disassembled, which facilitates cleaning.
The above-mentioned description is merely a summary of the technical solutions of the present disclosure. In order to more clearly know about the technical means of the present disclosure and implement the same according to the content of the description, they will be described in detail hereinafter with preferred embodiments of the present disclosure and in cooperation with accompanying drawings.
In order to describe the technical solutions in the embodiments of the present disclosure more clearly, the accompanying drawings required for describing the embodiments will be briefly introduced below. Apparently, the accompanying drawings in the following description show only some embodiments of the present disclosure, and those of ordinary skill in the art may still derive other accompanying drawings from these accompanying drawings without creative efforts.
Description for reference numerals in the accompanying drawings:
1, lid body; 11, first liquid outlet; 12, second liquid outlet; 13, suction nozzle; 14, shaft hole; 15, buckling position; 16, supporting part; 17, air guide hole; 18, toggling point;
2, rotating cover; 21, misaligned gap; 22, pin shaft; 221, square end; 222, internal shrinkage groove; 223, clamping bulge; 23 first blocking part; 24, toggling point groove; 25, second blocking part;
3, plugging assembly; 31, plugging head; 32, base member; 321, lug; 322, splicing hole; 323, baffle; 324, guide groove; 325, partition plate; 33, cantilever; 331, splicing shaft; 332, abutting bulge; 34, first elastic member; 35, sliding block; 351, toggling bulge; 36, second elastic member; 37, limiting cover plate; 371, limiting groove;
4, driving assembly; 41, chuck; 411, square hole; 412, toggling bulge structure; 413, driving slope; 414, sealing member;
5, sealing ring; and
6, portable lifting handle.
In order to further describe the technical means and effects adopted for achieving a predetermined object of the present disclosure, specific implementations, structures, features and effects according to the present disclosure will be described in detail hereinafter in conjunction with the accompanying drawings and preferred embodiments. In the following description, “an embodiment” or “embodiment” which is different does not necessarily refer to the same embodiment. In addition, specified features, structures or characteristics in one or more embodiments can be combined in any appropriate forms.
In the description of the present disclosure, it should be noted that terms such as “first” and “second” in the description and claims of the present disclosure and the above-mentioned accompanying drawings are configured to distinguish similar objects, but are unnecessarily configured to describe a specific sequential or chronological order; and directional or positional relationships indicated by terms such as “vertical”, “transverse”, “longitudinal”, “front”, “rear”, “left”, “right”, “upper”, “lower” and “horizontal” are directional or positional relationships based on the accompanying drawings, are merely intended to facilitate describing the present disclosure, rather than to indicate that the appointed device or element has to be located in a specific direction or position so as not to be understood as limitations on the present disclosure.
In the description of the present disclosure, it should be noted that terms “mounted”, “connected” and “connection” should be understood in a broad sense unless otherwise specified and defined, for example, “connection” may be fixed connection or detachable connection or integrated connection, may be mechanical connection or electrical connection, may be direct connection or indirect connection through an intermediate medium. For those of ordinary skill in the art, specific meanings of above-mentioned terms in the present disclosure may be understood according to specific situations.
As shown in
In the present embodiment, the first liquid outlet 11 and the second liquid outlet 12 are constructed in the lid body 1 of the lid structure; specifically, the lid structure can be disposed on a bottle in a way such as screwing, both of the first liquid outlet 11 and the second liquid outlet 12 communicate with a liquid storage cavity in the bottle, and the second liquid outlet 12 is provided with the suction nozzle 13; when a water temperature is appropriate, a user keeps the suction nozzle 13 in the mouth to directly suck a liquid, such as water, in the liquid storage cavity in the bottle; and when the water temperature is overhigh, the water can be poured into a vessel through the first liquid outlet 11 and drunk when the temperature is appropriate, and therefore, by the lid structure, cold and hot drinks can be switched on a lid at the same time.
The rotating cover 2 of the lid structure is rotatably disposed on the side, facing the suction nozzle 13, of the lid body 1 so as to be capable of bending the suction nozzle 13 during rotation, thereby preventing the liquid, such as water, in the liquid storage cavity in the bottle from being leaked from the suction nozzle 13 when the liquid is not drunk; in addition, the rotating cover 2 is provided with the misaligned gap 21, when it is necessary to drink through the suction nozzle 13, the rotating cover 2 can be rotated until the suction nozzle 13 is exposed out of the misaligned gap 21, the suction nozzle 13 is generally made of an elastic material, such as silica gel, with elasticity, and therefore, the suction nozzle 13 rebounds at the misaligned gap 21 to reset to an upright state, which provides convenience for the user to drink through the suction nozzle.
The plugging assembly 3 of the lid structure is detachably disposed on the side, away from the rotating cover 2, of the lid body 1, the plugging assembly 3 is provided with the plugging head 31 capable of plugging the first liquid outlet 11, and the first liquid outlet 11 is plugged by the plugging head 31 of the plugging assembly 3, so that the liquid is prevented from being leaked from the first liquid outlet 11 when not drunk.
The driving assembly 4 of the lid structure is capable of synchronously rotating with the rotating cover 2 and driving the plugging head 31 to be away from the first liquid outlet 11 when the misaligned gap 21 is at least partially connected to the first liquid outlet 11, that is, the rotating cover 2 can be rotated to drive the driving assembly 4 to rotate; and when it is necessary to drink or pour out the liquid through the first liquid outlet 11, the rotating cover 2 is rotated until the misaligned gap 21 is at least partially connected to the first liquid outlet 11, at the moment, the driving assembly 4 can drive the plugging head 31 to be away from the first liquid outlet 11, so that the first liquid outlet 11 is in a connected state.
All of the rotating cover 2, the plugging assembly 3 and the driving assembly 4 are detachably disposed on the lid body 1, thereby facilitating cleaning.
It can be seen that, by the lid structure, cold and hot drinks can be switched on a lid at the same time, and all parts can be disassembled, which facilitates cleaning.
In some implementations, the lid body 1 is provided with a shaft hole 14, a pin shaft 22 penetrating into the shaft hole 14 is constructed on the rotating cover 2, a square end 221 is constructed on an end of the pin shaft 22 extending to the lid body 1 away from the rotating cover 2, the driving assembly 4 includes a chuck 41, and the chuck 41 is provided with a square hole 411 cooperating with the square end 221.
In the present embodiment, by forming the shaft hole 14 in the lid body 1 and penetrating the pin shaft 22 of the rotating cover 2 into the shaft hole 14, rotary connection between the rotating cover 2 and the lid body 1 is realized; and the square end 221 is constructed on the end of the pin shaft 22 extending to the lid body 1 away from the rotating cover 2, the driving assembly 4 includes the chuck 41, and the chuck 41 is provided with the square hole 411 cooperating with the square end 221. Due to the cooperation of the square end 221 and the square hole 411, the driving assembly 4 can synchronously rotate with the rotating cover 2.
In some implementations, the square end 221 is provided with an internal shrinkage groove 222 passing through the radial direction of the pin shaft 22, a clamping bulge 223 is disposed on an outer wall, facing away from the internal shrinkage groove 222, of the square end 221, and the clamping bulge 223 is located on a side, away from the lid body 1, of the chuck 41.
In the present embodiment, by disposing the internal shrinkage groove 222 passing through the radial direction of the pin shaft 22 on the square end 221, when a force is applied to the radial direction of the outer wall of the square end 221, the square end 221 inwards shrinks. The clamping bulge 223 is disposed on the outer wall, facing away from the internal shrinkage groove 222, of the square end 221, and the clamping bulge 223 is located on the side, away from the lid body 1, of the chuck 41. By the structure, the rotating cover 2 and the chuck 41 are detachably disposed on the lid body 1, which facilitates disassembling and cleaning the lid body 1, the rotating cover 2, and the chuck 41.
In some implementations, a toggling bulge structure 412 is constructed on a side, away from the lid body 1, of the chuck 41, and the toggling bulge structure 412 is provided with a driving slope 413 gradually away from the lid body 1 so as to drive the plugging head 31 to be away from the first liquid outlet 11 during rotation.
In the present embodiment, the toggling bulge structure 412 is constructed on the side, away from the lid body 1, of the chuck 41, the toggling bulge structure 412 is provided with a driving slope 413 gradually away from the lid body 1, and the driving slope 413 can drive the chuck 41 to rotate through the square end 221 of the pin shaft 22 when the rotating cover 2 rotates, so that the driving assembly 4 drives the plugging head 31 to be away from the first liquid outlet 11, and it is ensured that the first liquid outlet 11 is in a connected state.
In some implementations, the plugging assembly 3 includes a base member 32, a cantilever 33, and a first elastic member 34, the base member 32 is detachably disposed on the lid body 1, the cantilever 33 is rotatably disposed on the base member 32 and is located between the base member 32 and the lid body 1, the plugging head 31 is disposed on an end, away from the base member 32, of the cantilever 33, and the first elastic member 34 is disposed between the base member 32 and the cantilever 33, so that the plugging head 31 abuts against the first liquid outlet 11, and when the chuck 41 rotates, the driving slope 413 is in sliding fit with the cantilever 33.
In the present embodiment, the plugging assembly 3 includes the base member 32, the cantilever 33, and the first elastic member 34; the base member 32 is detachably disposed on the lid body 1, which facilitates disassembling and cleaning the base member 32; the cantilever 33 is rotatably disposed on the base member 32 and is located between the base member 32 and the lid body 1, the plugging head 31 is disposed on the end, away from the base member 32, of the cantilever 33, and the first elastic member 34 is disposed between the base member 32 and the cantilever 33, so that the plugging head 31 can abut against the first liquid outlet 11 to avoid liquid leakage from the first liquid outlet 11 during nonuse; when the chuck 41 rotates, the driving slope 413 is in sliding fit with the cantilever 33; and when there is a requirement for use, the chuck 41 can be rotated, so that the driving slope 413 is in sliding fit with the cantilever 33 to drive the cantilever 33, thereby driving the plugging head 31 to be away from the first liquid outlet 11 and ensuring that the first liquid outlet 11 is in a connected state.
In some implementations, a pair of convex lugs 321 is disposed on a side, facing the rotating cover 2, of the base member 32, the lugs 321 are provided with splicing holes 322, splicing shafts 331 are disposed on the two sides, facing away from each other, of the cantilever 33, the splicing shafts 331 are inserted in the splicing holes 322, one end of the first elastic member 34 is disposed on the base member 32, and the other end of the first elastic member 34 abuts against a side, facing the base member 32, of the cantilever 33.
In the present embodiment, the pair of convex lugs 321 is disposed on the side, facing the rotating cover 2, of the base member 32, the lugs 321 are provided with the splicing holes 322, the splicing shafts 331 are disposed on the two sides, facing away from each other, of the cantilever 33, and the splicing shafts 331 are inserted in the splicing holes 322, so that running fit between the cantilever 33 and the base member 32 is realized; one end of the first elastic member 34 is disposed on the base member 32, and the other end of the first elastic member 34 abuts against the side, facing the base member 32, of the cantilever 33; and by using the first elastic member 34, the cantilever 33 always drives the plugging head 31 to plug the first liquid outlet 11, thereby avoiding liquid leakage during nonuse.
In some implementations, the lugs 321 are provided with baffles 323, abutting bulges 332 are constructed on an end, close to the base member 32, of the cantilever 33, and when the first liquid outlet 11 is plugged by the plugging head 31, the abutting bulges 332 abut against the baffles 323.
In the present embodiment, the lugs 321 are provided with the baffles 323, the abutting bulges 332 are constructed on the end, close to the base member 32, of the cantilever 33, and when the first liquid outlet 11 is plugged by the plugging head 31, the abutting bulges 332 abut against the baffles 323. It is possible that when the first liquid outlet 11 is plugged by the plugging head 31, the abutting bulges 332 abut against the baffles 323 to prevent the cantilever 33 from rotating too much, thereby facilitating mounting.
In some implementations, a guide groove 324 passing through the radial direction of the lid body 1 is formed in a side, away from the cantilever 33, of the base member 32, two sliding blocks 35 are disposed in the guide groove 324, a second elastic member 36 is disposed between the two sliding blocks 35, two buckling positions 15 are disposed on an inner wall of the lid body 1, a supporting part 16 is disposed on a side, facing the rotating cover 2, of each of the buckling positions 15 on the inner wall of the lid body 1, the base member 32 is located between the supporting part 16 and the buckling position 15, and ends, facing away from each other, of the two sliding blocks 35 are respectively clamped on sides, facing the base member 32, of the two buckling positions 15.
In the present embodiment, the guide groove 324 passing through the radial direction of the lid body 1 is formed in the side, away from the cantilever 33, of the base member 32, the two sliding blocks 35 are disposed in the guide groove 324, and the second elastic member 36 is disposed between the two sliding blocks 35, so that the two sliding blocks 35 outwards move in the radial direction of the lid body 1 in the guide groove 324; and the two buckling positions 15 are disposed on the inner wall of the lid body 1, the supporting part 16 is disposed on the side, facing the rotating cover 2, of each of the buckling positions 15 on the inner wall of the lid body 1, the base member 32 is located between the supporting part 16 and the buckling position 15, and the ends, facing away from each other, of the two sliding blocks 35 are respectively clamped on the sides, facing the base member 32, of the two buckling positions 15. Specifically, the base member 32 can be disposed on the lid body 1 by respectively clamping the two sliding blocks 35 between the buckling position 15 on the inner wall of the lid body 1 corresponding thereto and the supporting part 16, the base member 32 can be disassembled by toggling the two sliding blocks 35 to inwards move in the radial direction of the lid body 1 in the guide groove 324, and thus, the plugging assembly 3 is detachably disposed on the side, away from the rotating cover 2, of the lid body 1.
In some implementations, a limiting cover plate 37 is buckled on a side, away from the cantilever 33, of the base member 32, the limiting cover plate 37 is provided with a limiting groove 371, and the two sliding blocks 35 are provided with toggling bulges 351 protruding out of the limiting groove 371.
In the present embodiment, the limiting cover plate 37 is buckled on the side, away from the cantilever 33, of the base member 32, the limiting cover plate 37 is provided with the limiting groove 371, the two sliding blocks 35 are provided with the toggling bulges 351 protruding out of the limiting groove 371, and the toggling bulges 351 facilitate toggling the two sliding blocks 35, that is, they facilitate disassembling the plugging assembly 3. In the present embodiment, by inserting the toggling bulges 351 of the two sliding blocks 35 in the limiting groove 371, the two sliding blocks 35 are avoided from dropping out of the guide groove 324, the plugging assembly 3 is prevented from being scattered, and it is convenient to entirely assemble the plugging assembly 3 on the lid body 1.
In some implementations, a partition plate 325 is constructed in the guide groove 324, the two sliding blocks 35 are respectively disposed on two sides of the partition plate 325, and the second elastic member 36 is clamped between the partition plate 325 and each of the two sliding blocks 35.
In the present embodiment, the partition plate 325 is constructed in the guide groove 324, the two sliding blocks 35 are respectively disposed on two sides of the partition plate 325, and the second elastic member 36 is clamped between the partition plate 325 and each of the two sliding blocks 35, so that it is ensured that the two sliding blocks 35 on two sides of the partition plate 325 outwards move in the radial direction of the lid body 1 in the guide groove 324.
In addition, all parts of the plugging assembly 3 can also be disassembled, which facilitates cleaning.
In some implementations, a sealing ring 5 is disposed between an outer wall of the pin shaft 22 and an inner wall of the shaft hole 14.
In the present embodiment, the sealing ring 5 is disposed between the outer wall of the pin shaft 22 and the inner wall of the shaft hole 14. By using the sealing ring 5, liquid leakage between the pin shaft 22 and the shaft hole 14 can be avoided, and sealing and thermal insulation properties can be improved.
In some implementations, an air guide hole 17 is formed in the lid body 1, a sealing member 414 for plugging the air guide hole 17 is disposed on a side, away from the lid body 1, of the chuck 41, and when the suction nozzle 13 rebounds at the misaligned gap 21 to reset, the air guide hole 17 is misaligned to the sealing member 414.
In the present embodiment, by forming the air guide hole 17 in the lid body 1 and disposing the sealing member 414 for plugging the air guide hole 17 on the side, away from the lid body 1, of the chuck 41, when the suction nozzle 13 rebounds at the misaligned gap 21 to reset, the air guide hole 17 is misaligned to the sealing member 414, so that it is ensured that air can enter through the air guide hole 17, and a liquid is smoothly sucked through the suction nozzle 13.
In some implementations, the lid structure further includes a portable lifting handle 6, and two ends of the portable lifting handle 6 are rotatably disposed on an outer wall of the lid body 1.
In the present embodiment, due to the arrangement that two ends of the portable lifting handle 6 are rotatably disposed on the outer wall of the lid body 1, portability is achieved.
In some implementations, the rotating cover 2 is provided with a first blocking part 23, a toggling point groove 24 and a second blocking part 25 sequentially disposed in a circumferential direction; the lid body 1 is provided with a toggling point 18; when the suction nozzle 13 rebounds at the misaligned gap 21 to reset, the toggling point 18 abuts against a side, facing the toggling point groove 24, of the first blocking part 23, so that excessive rotation of the rotating cover 2 can be avoided; when the misaligned gap 21 is connected to the first liquid outlet 11, the toggling point 18 abuts against a side, facing the toggling point groove 24, of the second blocking part 25, so that excessive rotation of the rotating cover 2 can be avoided; and the toggling point groove 24 is located between the first blocking part 23 and the second blocking part 25. When the toggling point 18 is clamped in the toggling point groove 24, the rotating cover 2 bends the suction nozzle 13 and shields the first liquid outlet 11 at the same time; when not drinking, a user can rotates the rotating cover to the position; of course, it is also possible that the toggling point groove 24 is disposed in a side, facing to the toggling point groove 24, of the first blocking part 23 and in a position close to the first blocking part 23, and the toggling point groove 24 is disposed in a side, facing to the toggling point groove 24, of the second blocking part 25 and in a position close to the first blocking part 23, so that the rotating cover 2 is prevented from backwards rotating. In the present embodiment, due to the cooperation between each of the first blocking part 23, the toggling point groove 24 and the second blocking part 25 and the toggling point 18, it is convenient for a user to recognize a rotation position. In addition, it is also possible to set corresponding signs on the rotating cover 2 and the lid body 1, so that it is convenient for the user to recognize the rotation position, and the user experience is improved.
An embodiment of the present disclosure further provides a bottle, wherein the bottle includes the above-mentioned lid structure.
In summary, it is easy to be understood by the skill in the art that all above-mentioned beneficial technical features can be freely combined and superposed without conflicts.
The above descriptions are merely specific implementations of the present disclosure, but the protection scope of the present disclosure is not limited thereto. Those skilled in the art can readily envision various equivalent modifications or replacements within the technical scope disclosed by the present disclosure, and these modifications or replacements should fall within the protection scope of the present disclosure. Therefore, the protection scope of the present disclosure should be subject to the protection scope defined in the claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202311166000.4 | Sep 2023 | CN | national |
