SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a cover which is beneficial to quick opening of the cover and improvement of user experience.
It is a further object of the present invention to provide a container that facilitates quick opening of the lid and an improved user experience.
In order to achieve the above object, the present invention provides a cover for covering a container body of a container, the container body having a locking groove, the cover comprising:
a lid body;
the moving piece is movably arranged on the cover body, a buckling part corresponding to the clamping groove is arranged on the moving piece, the moving piece can move between a first position and a second position, the buckling part is clamped with the clamping groove on the container body when the moving piece is positioned at the first position, and the buckling part is separated from the clamping groove on the container body when the moving piece is positioned at the second position;
and the operating mechanism acts on the moving piece, and can drive the moving piece to move towards the second position direction when being operated.
Optionally, a cover space is formed in the cover body, a through groove for communicating the cover space with the outside is formed in the cover body, and the through groove corresponds to the clamping groove in the container body; the moving piece is movably arranged in the cover space, and the buckling part corresponds to the through groove to move towards the first position direction to be clamped with the clamping groove or move towards the second position direction to be separated from the clamping groove.
Optionally, a first elastic element is arranged between the moving element and the cover body, when the moving element is located at the second position, the first elastic element stores elastic potential energy, and the moving element is urged to move towards the first position by releasing the elastic potential energy.
Optionally, the operating mechanism includes a pressing member, the pressing member is provided with a first sliding surface, and the moving member is provided with a second sliding surface which is in the same inclination direction as the first sliding surface and is in sliding fit with the first sliding surface; when the pressing piece is pressed, the first sliding surface and the second sliding surface are in sliding fit, and the moving piece is driven to move towards the second position direction so that the clamping part is separated from the clamping groove.
Optionally, the operating mechanism further comprises a second elastic member disposed between the pressing member and the cap body, the second elastic member being configured to be compressed to store elastic potential energy to restore the pressing member when the pressing member is pressed.
Optionally, a sliding groove is formed at one end of the moving member close to the pressing member, and the second sliding surface is a component of one end surface of the sliding groove; the cover body is convexly provided with a stop structure, the stop structure is arranged in the chute in a sliding manner, and the first elastic piece is arranged between the other end surface of the chute and the stop structure; when the pressing piece is pressed, the first sliding surface slides into the sliding groove along the second sliding surface, and the moving piece compresses the first elastic piece.
Optionally, the cover body comprises an upper body and a lower body, and at least two moving members are distributed on the lower body; the pressing piece is movably arranged on the upper body and is provided with a first sliding surface in sliding fit with the second sliding surface corresponding to at least two moving pieces; the lower body is fixedly provided with a mounting part, an opening is formed in the middle of the mounting part, the first sliding surface and the second sliding surface correspond to the opening, and the second elastic piece is arranged between the mounting part and the pressing piece.
In order to achieve the above another object, the present invention provides a container, which includes a container body and a cover detachably covering the container body, wherein the container body is provided with a locking groove, and the cover is as described above, and the locking portion is locked with or separated from the locking groove.
Optionally, the cover is provided with a groove, the top of the container body is provided with a clamping structure in an upward protruding manner, the clamping groove is formed in the clamping structure, and when the cover is covered on the container body, the clamping structure is located in the groove.
Optionally, an elastic compression structure is arranged in the groove, and when the buckling part is clamped in the clamping groove, the elastic compression structure is compressed on the clamping structure and is in a compressed state to store elastic potential energy; when the buckling part is separated from the clamping groove, the elastic potential energy of the elastic compression joint structure is released to enable the cover to be bounced off the container body.
Optionally, the container further includes an elastic compression joint structure, the elastic compression joint structure is disposed between the cover and the container body, and when the buckling portion is buckled in the buckling groove, the elastic compression joint structure is in a compressed state to store elastic potential energy; when the buckling part is separated from the clamping groove, the elastic potential energy of the elastic compression joint structure is released to enable the cover to be bounced off the container body.
The cover is provided with the moving piece and the operating mechanism, the moving piece is provided with the buckling part, the moving piece can move to enable the buckling part to be clamped with or separated from the clamping groove on the container body so as to enable the cover to be stably covered on the container body or release the lock of the cover, and the operating mechanism is operated to drive the moving piece to move so as to enable the buckling part to be separated from the clamping groove, so that the quick lock release of the cover is realized, the quick opening of the cover is facilitated, and the use experience of a user is effectively improved.
Detailed Description
In order to explain technical contents, structural features, and effects of the present invention in detail, the following detailed description is given with reference to the embodiments and the accompanying drawings.
Referring to fig. 1 to 6, an embodiment of the present invention discloses a container, which includes a container body 1 and a cover 2 covering the container body 1, wherein a clamping groove 11 is formed on the container body 1; the cover 2 comprises a cover body 20, a moving piece 30 and an operating mechanism, the moving piece 30 is movably arranged on the cover body 20, a buckling part 31 corresponding to the clamping groove 11 is arranged on the moving piece 30, the moving piece 30 can move between a first position and a second position, when the moving piece 30 is located at the first position, the buckling part 31 is clamped with the clamping groove 11 on the container body 1, and when the moving piece 30 is located at the second position, the buckling part 31 is separated from the clamping groove 11 on the container body 1; the operating mechanism acts on the moving member 30, and when the operating mechanism is operated, the operating mechanism drives the moving member 30 to move towards the second position.
According to the utility model, the operating mechanism can drive the moving member 30 to move so that the buckling part 31 arranged on the moving member 30 is separated from being clamped with the clamping groove 11, so that the cover 2 is quickly unlocked, the cover 2 is quickly opened, and the use experience of a user is effectively improved.
In some embodiments, a first elastic member 40 is disposed between the moving member 30 and the cap body 20, and when the moving member 30 is located at the second position, the first elastic member 40 stores elastic potential energy, and the release of the elastic potential energy urges the moving member 30 to move to the first position. Due to the arrangement of the first elastic member 40, when the cover 2 is covered on the container body 1, the moving member 30 can be moved by releasing the elastic potential energy of the first elastic member 40, so that the locking portion 31 on the moving member 30 is firmly locked with the locking groove 11 on the container body 1.
Specifically, when the cover 2 needs to be covered on the container body 1, the operating mechanism may be operated to enable the moving member 30 to be located at the second position, and when the cover 2 is covered on the container body 1, the operating mechanism is released, and at this time, the elastic potential energy of the first elastic member 40 is released to enable the moving member 30 to move to the first position, so that the buckling portion 31 is quickly buckled on the buckling groove 11 on the container body 1.
Of course, in some cases, when the cover 2 is placed on the container body 1, the operation mechanism may not be operated, and the engaging portion 31 may be directly engaged with the engaging groove 11 on the container body 1. Specifically, in the process that the cover 2 covers the container body 1, the buckling part 31 can be pushed by the end part of the side wall corresponding to the clamping groove 11 to move the moving member 30 to the second position, the first elastic member 40 stores elastic potential energy, when the cover 2 is covered, the buckling part 31 is aligned to the clamping groove 11, the elastic potential energy of the first elastic member 40 is released to enable the moving member 30 to move to the first position rapidly, and the buckling part 31 is clamped to the clamping groove 11, so that the cover 2 and the container body 1 are combined stably.
Specifically, the operating mechanism comprises a pressing piece 50, a first sliding surface 51 is arranged on the pressing piece 50, and a second sliding surface 32 which is in the same inclination direction as the first sliding surface 51 and is in sliding fit with the first sliding surface 51 is arranged on the moving piece 30; when the pressing member 50 is pressed, the first sliding surface 51 and the second sliding surface 32 are in sliding fit to drive the moving member 30 to move towards the second position direction, so that the buckling part 31 is separated from the clamping groove 11, the locking of the cover 2 is realized, and meanwhile, the first elastic member 40 stores elastic potential energy under the action of the moving member 30; when the pressing member 50 is released, the elastic potential energy of the first elastic member 40 is released, so that the moving member 30 moves reversely to return to the first position. By means of sliding surface sliding fit between the pressing piece 50 and the moving piece 30, when the cover 2 needs to be opened, the buckling part 31 can be separated from the clamping groove 11 only by pressing the pressing piece 50, locking of the cover 2 can be released quickly, and quick opening of the cover 2 is facilitated.
Further, the first sliding surface 51 and the second sliding surface 32 are inclined surfaces having the same inclination direction, but are not limited thereto.
Further, the operating mechanism further includes a second elastic member 60, the second elastic member 60 being disposed between the pressing member 50 and the cap body 20, the second elastic member 60 being configured to be compressed when pressing the pressing member 50 to store elastic potential energy to restore the pressing member 50. By means of the arrangement of the second elastic element 60, when the pressing element 50 is released, the pressing element 50 can be quickly reset under the action of the second elastic element 60, which is also beneficial to quickly resetting the moving element 30.
Further, one end of the moving member 30 close to the pressing member 50 is formed with a sliding groove 33, and the second sliding surface 32 is a component of one end surface of the sliding groove 33; the cover body 20 is convexly provided with a stop structure 230, the stop structure 230 is slidably arranged in the sliding groove 33, and the first elastic element 40 is arranged between the other end surface of the sliding groove 33 and the stop structure 230; when the pressing member 50 is pressed, the first sliding surface 51 slides into the sliding groove 33 along the second sliding surface 32, and the moving member 30 moves in the second position direction to compress the first elastic member 40. Since the sliding groove 33 is formed on the moving member 30, and the first sliding surface 51 is a component of one end surface of the sliding groove 33, when the pressing member 50 is pressed, the first sliding surface 51 can slide into the sliding groove 33 along the second sliding surface 32, thereby being beneficial to reducing the overall thickness of the cap 2. In addition, the installation of the first elastic member 40 is also facilitated by the arrangement of the sliding slot 33 and the stopping structure 230.
Further, the cover body 20 comprises an upper body 22 and a lower body 23, and at least two moving members 30 are distributed on the lower body 23; the pressing element 50 is movably disposed on the upper body 22, and the pressing element 50 is respectively provided with a first sliding surface 51 in sliding fit with the second sliding surface 32 corresponding to the at least two moving elements 30. Correspondingly, the locking portions 31 of the container body 1 corresponding to the at least two moving members 30 are respectively formed with locking grooves 11. The cooperation of the at least two fastening portions 31 and the engaging groove 11 is beneficial to the stable combination of the cover 2 and the container body 1.
Specifically, the lower body 23 is fixedly provided with a mounting member 70, an opening 71 is formed in the middle of the mounting member 70, the first sliding surface 51 and the second sliding surface 32 are arranged corresponding to the opening 71 to realize a sliding fit therebetween, and the second elastic member 60 is arranged between the mounting member 70 and the pressing member 50, so that the installation of the second elastic member 60 is facilitated.
More specifically, the mounting member 70 includes a mounting plate 72 and a side plate 73 projecting downward from an outer edge of the mounting plate 72, the opening 71 is formed in the mounting plate 72, and the side plate 73 is formed with a relief notch 74; the lower body 23 is convexly provided with a plurality of bosses 231, the mounting plate 72 is supported on the plurality of bosses 231 and locked by locking members (not shown), the side plate 73 is supported on the lower body 23 so as to enable the mounting member 70 to be more stably combined on the lower body 23, and one end of the moving member 30, which is provided with the second sliding surface 32, extends into the mounting member 70 from the abdicating notch 74 so as to be in sliding fit with the first sliding surface 51.
In a specific example, the number of the moving members 30 is four and the moving members are arranged at intervals of 90 degrees in the circumferential direction, the ends of the four moving members 30 close to each other are respectively formed with second sliding surfaces 32, the pressing member 50 is disposed corresponding to the ends of the four moving members 30 close to each other and is respectively formed with first sliding surfaces 51 corresponding to the second sliding surfaces 32 of the four moving members 30, when the pressing member 50 is pressed, the moving members 30 arranged opposite to each other are close to each other to release the lock under the action of the first sliding surfaces 51 and the second sliding surfaces 32, and when the pressing member 50 is released, the moving members 30 arranged opposite to each other are away from each other to return under the action of the first elastic member 40. Specifically, the moving members 30 are disposed opposite to each other in symmetry.
Specifically, the pressing piece 50 includes an annular mounting portion 52 and a pressing portion 53, the pressing portion 53 is connected to the inside of the annular mounting portion 52 so as to be movable up and down, and the first sliding surface 51 is formed on the pressing portion 53; the upper body 22 is provided with a pressing hole 221, the pressing portion 53 is provided in the pressing hole 221, and the annular mounting portion 52 is fixedly mounted inside the upper body 22. By this means, it is possible to achieve a good pressing effect while firmly bonding the pressing piece 50 to the upper body 22.
In some embodiments, in order to achieve reliable movement of the moving member 30, the cover body 20 is provided with a guide groove 232 for guiding the moving member 30 to move.
In some embodiments, a lid space 24 is formed in the lid body 20, a through groove 233 communicating the lid space 24 with the outside is formed in the lid body 20, and the through groove 233 corresponds to the card slot 11 on the container body 1; the moving member 30 is movably disposed in the cover space 24, and the locking portion 31 corresponds to the through groove 233 to move toward the first position to be engaged with the locking groove 11 or move toward the second position to be disengaged from the locking groove 11. Since the cover body 20 is provided with the cover space 24 and the through groove 233, on the one hand, installation of the moving member 30 is facilitated, and on the other hand, it is possible to avoid that the appearance of the cover 2 is affected and the moving member 30 is easily collided due to the moving member 30 being disposed outside the cover body 20.
Specifically, the cap body 20 includes an upper body 22 and a lower body 23, and a cap space 24 is formed between the upper body 22 and the lower body 23.
In some embodiments, the cover 2 has a groove 234, the top of the container body 1 is provided with a retaining structure 12 protruding upward, the slot 11 is formed on the retaining structure 12, and when the cover 2 is closed on the container body 1, the retaining structure 12 is located in the groove 234. When the sealing effect of the cover 2 needs to be ensured, the clamping structure 12 is positioned in the groove 234 when the cover 2 is closed, so that the sealing effect of the cover 2 can be prevented from being influenced. In a particular example, the groove 234 communicates with the lid space 24 through the through slot 233.
Specifically, the elastic compression joint structure 80 is arranged in the groove 234, and when the buckling part 31 is clamped in the clamping groove 11, the elastic compression joint structure 80 is compressed on the clamping structure 12 to store elastic potential energy; when the latch 31 is disengaged from the catch 11, the elastic potential energy of the elastic press-fit structure 80 is released to eject the cap 2 from the container body 1. When the buckling part 31 is separated from the clamping groove 11, the elastic compression joint structure 80 can bounce the cover 2 off the container body 1, so that the cover 2 can be conveniently and quickly taken down; in addition, since the elastic pressing structure 80 and the holding structure 12 are disposed in the same groove 234 and pressed against the holding structure 12, a hole groove specially used for disposing the elastic pressing structure 80 on the cover 2 can be avoided, which is beneficial to ensuring the structural strength of the cover 2.
Furthermore, the elastic pressure welding structure 80 forms a notch 81 corresponding to the buckling part 31, and when the cover 2 is not covered, the buckling part 31 is located at the notch 81, so that on one hand, the stability of the elastic pressure welding structure 80 can be maintained, and on the other hand, the overall thickness of the cover 2 can be reduced.
In some embodiments, an elastic pressing structure 80 is disposed between the cover 2 and the container body 1, when the locking portion 31 is locked in the locking groove 11, the elastic pressing structure 80 is in a compressed state to store elastic potential energy, and when the locking portion 31 is separated from the locking groove 11, the elastic potential energy of the elastic pressing structure 80 is released to pop the cover 2 off the container body 1. Since the elastic press-fit structure 80 can spring the cap 2 away from the container body 1 when the catching portion 31 is disengaged from the catching groove 11, the cap 2 can be easily and quickly removed. Specifically, the elastic crimping structure 80 may be disposed on the cover 2, and may also be disposed on the container body 1, which is not limited by the present invention.
Specifically, the elastic crimping structure 80 includes a crimping member 82 and a third elastic member 83, the crimping member 82 is telescopically connected to the cover 2, the third elastic member 83 is disposed between the crimping member 82 and the cover 2, when the cover is covered on the container body 1, the crimping member 82 is pressed up by the container body 1, the third elastic member 83 is compressed under the action of the crimping member 82 to store elastic potential energy, and when the buckling part 31 is disengaged from the clamping groove 11, the elastic potential energy of the third elastic member 83 is released to bounce the cover 2 upwards.
The above disclosure is only a preferred embodiment of the present invention, which is convenient for those skilled in the art to understand and implement, and certainly not to limit the scope of the present invention, which is not intended to be covered by the present invention.