CN113133626A

CN113133626A - Container self-locking mechanism and self-locking water cup

Info

Publication number: CN113133626A
Application number: CN202110496103.1A
Authority: CN
Inventors: 黄猷霖; 林勇
Original assignee: Hans Technology Shenzhen Co ltd
Current assignee: Hans Technology Shenzhen Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-07-20
Anticipated expiration: 2041-05-07
Also published as: WO2022233144A1; CN113133626B

Abstract

The invention relates to the technical field of water cup containers, and discloses a container self-locking mechanism and a self-locking water cup, wherein the container self-locking mechanism comprises a cover body and a self-locking assembly; the cover body comprises a top cover and a bottom cover, the bottom cover can be rotatably connected to the container and covers the opening of the container, a through hole is formed in the bottom cover and is used for being communicated with the interior of the container, and the top cover can be rotatably connected to the bottom cover and covers the through hole; the self-locking assembly is arranged on the cover body and comprises a fingerprint identification switch, a first self-locking structure and a second self-locking structure. The application provides a container self-locking mechanism is through setting up first auto-lock structure and second auto-lock structure to set up the fingerprint identification switch simultaneously and carry out unlocking control to first auto-lock structure and second auto-lock structure, thereby make above-mentioned container self-locking mechanism have self-locking function, adopt fingerprint identification's mode simultaneously also to let this container self-locking mechanism's unblock simpler, also more intelligent.

Description

Container self-locking mechanism and self-locking water cup

Technical Field

The invention relates to the technical field of water cup containers, in particular to a container self-locking mechanism and a self-locking water cup.

Background

The invention completely solves the design blank of children water cup safety in the market, ensures the water cup to have a self-locking function through a fingerprint identification and mechanical transmission design mode, has the advantages of safety guarantee and low cost, and can be generally accepted by common consumers in the market.

Disclosure of Invention

The invention aims to provide a container self-locking mechanism and a self-locking water cup, and aims to solve the problems that the water cup in the prior art does not have a self-locking function and has potential safety hazards.

The invention is realized in such a way, and in a first aspect, an embodiment of the invention provides a container self-locking mechanism, which comprises a cover body and a self-locking assembly; the cover body comprises a top cover and a bottom cover, the bottom cover can be rotatably connected to the container and covers the opening of the container, a through hole is formed in the bottom cover and is used for communicating with the interior of the container, and the top cover can be rotatably connected to the bottom cover and covers the through hole; the self-locking assembly is arranged on the cover body and comprises a fingerprint identification switch, a first self-locking structure and a second self-locking structure; the first self-locking structure can lock the bottom cover and seal the container, the second self-locking structure can lock the top cover and seal the bottom cover, and the fingerprint identification switch can drive the first self-locking structure and the second self-locking structure to move, so that the bottom cover and the top cover can rotate respectively.

Further, the fingerprint identification switch comprises a fingerprint identification module, a relay and a telescopic structure; the fingerprint identification module is electrically connected with the relay, the fingerprint identification module can identify fingerprint information and control the relay to be charged and powered off, the relay is connected with the telescopic structure, and the telescopic structure is respectively connected with the first self-locking structure and the second self-locking structure; when the relay is in a charging state, the relay can drive the telescopic structure to move so as to respectively enable the first self-locking structure and the second self-locking structure to move.

Furthermore, the first self-locking structure comprises a clamping strip and a first elastic piece, a positioning piece capable of being matched with the clamping strip in an embedded mode is fixedly arranged on the container, a clamping groove capable of allowing the clamping strip to be embedded is formed in the positioning piece, one end of the clamping strip is connected with the first elastic piece, the other end of the clamping strip can be embedded into the clamping groove, and the clamping strip is abutted to the telescopic structure; when the relay is in a charging state, the telescopic structure moves towards the first direction, the telescopic structure can push the clamping strip to move towards the direction of the first elastic piece, so that the first elastic piece is in a compression state, when the relay is in a power-off state, the first elastic piece in the compression state can drive the clamping strip to move towards the direction of the positioning piece, so that the clamping strip is embedded into the clamping groove, and the telescopic structure moves towards the second direction.

Furthermore, the second self-locking structure comprises a clamping piece and a second elastic piece, one end of the clamping piece is connected with the second elastic piece, the other end of the clamping piece is provided with a clamping part which can be clamped with the top cover, and the middle part of the clamping piece is provided with a rotating shaft; the telescopic structure court the in-process of first direction motion, telescopic structure can promote the fastener winds the rotation axis rotates, so that the one end compression of fastener the second elastic component the fastener joint portion with the top cap breaks away from the telescopic structure court the in-process of second direction motion is in compression state the second elastic component can drive the fastener winds the rotation axis rotates, so that joint portion can with the top cap joint.

Furthermore, the telescopic structure comprises a telescopic rod and a sliding block, one end of the telescopic rod is connected with the relay, the other end of the telescopic rod is connected with one end of the sliding block, and the other end of the sliding block is abutted to the clamping strip; when the relay is in a charging state, the telescopic rod drives the sliding block to move towards the first direction.

Further, the sliding block comprises an abutting part abutted against the clamping strip, a pushing part and a connecting part used for connecting the abutting part and the pushing part, and the clamping piece is arranged above the connecting part; in the process that the telescopic rod drives the sliding block to move towards the first direction, the pushing part can push the clamping piece to rotate around the rotating shaft.

Further, the slider has a first abutting surface abutting against the clip strip, and the first abutting surface extends obliquely downward along the first direction.

Further, joint portion is provided with first trapezoidal fixture block, be provided with on the top cap can with the trapezoidal fixture block of second of first trapezoidal fixture block joint.

Further, the bottom cover comprises a middle shell and a lower shell, the middle shell is fixedly covered on the lower shell, the lower shell can be rotatably connected to the container and covers the opening of the container, and the self-locking assembly is arranged between the middle shell and the lower shell.

Compared with the prior art, the above-mentioned container self-locking mechanism that provides, through set up the auto-lock subassembly on the lid, can realize the locking to bottom and top cap on the lid respectively, through setting up first auto-lock structure and second auto-lock structure, and set up fingerprint identification switch simultaneously and carry out unblock control to first auto-lock structure and second auto-lock structure, thereby make above-mentioned container self-locking mechanism have had self-locking function, adopt fingerprint identification's mode also to let the unblock of this mechanism simpler simultaneously, also more intelligent.

In a second aspect, the application further provides a self-locking water cup which comprises a cup body and any one of the container self-locking mechanisms, wherein the container self-locking mechanism can be rotatably connected to the telescopic cup body and covers the opening of the cup body.

The self-locking water cup has the advantages that the container self-locking mechanism can be rotatably connected and covered on the cup body, so that the water cup has a self-locking function, and meanwhile, the self-locking water cup is simpler and more intelligent to unlock in a fingerprint identification mode.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic perspective view of a container self-locking mechanism provided in an embodiment of the present invention;

FIG. 2 is an exploded view of a portion of the self-locking mechanism of the container shown in FIG. 1;

FIG. 3 is a perspective view of a portion of the self-locking assembly of FIG. 1;

FIG. 4 is an exploded view of a portion of the self-locking assembly of FIG. 3;

FIG. 5 is a perspective view of the clip of FIG. 4;

FIG. 6 is a schematic perspective view of the slider of FIG. 4;

FIG. 7 is a schematic perspective view of a self-locking cup according to an embodiment of the present invention;

FIG. 8 is a sectional view of a self-locking cup according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of the self-locking drinking cup of FIG. 7 with the top cover in an open position;

FIG. 10 is a schematic view of the bottom cover and top cover of the self-locking drinking cup of FIG. 7 in an open position.

Reference numerals: 1-cover body, 11-bottom cover, 111-middle shell, 1111-embedded opening, 112-lower shell, 113-limit groove, 114-through hole, 12-top cover, 121-second trapezoidal clamping block, 2-self-locking component, 21-fingerprint identification switch, 212-relay, 213-telescopic structure, 2131-slide block, 21311-abutting part, 21312-connecting part, 21313-pushing part, 21314-first abutting surface, 2132-telescopic rod, 22-first self-locking structure, 221-clamping strip, 2211-abutting end, 2212-embedded end, 2213-second abutting surface, 222-first elastic part, 23-second self-locking structure, 231-clamping piece, 2311-first trapezoidal clamping block, 23111-first inclined surface, 2312-convex part and 2313-connecting part, 2314-an open slot, 232-a second elastic piece, 24-a ring strip, 3-a cup body, 31-a positioning piece, 311-a clamping slot, 4-a suction nozzle and 5-a suction pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram illustrating a container self-locking mechanism according to an embodiment of the present invention, and referring to fig. 2-4, the container self-locking mechanism according to the embodiment includes a cover 1 and a self-locking assembly 2; the cover body 1 comprises a top cover 12 and a bottom cover 11, the bottom cover 11 can be rotatably connected to the container and covers the opening of the container, a through hole 114 is formed in the bottom cover 11, the through hole 114 is used for communicating with the interior of the container, and the top cover 12 can be rotatably connected to the bottom cover 11 and covers the through hole 114; the self-locking assembly 2 is arranged on the cover body 1, and the self-locking assembly 2 comprises a fingerprint identification switch 21, a first self-locking structure 22 and a second self-locking structure 23; the first self-locking structure 22 can lock and seal the bottom cover 11 on the container, the second self-locking structure 23 can lock and seal the top cover 12 on the bottom cover 11, and the fingerprint identification switch 21 can drive the first self-locking structure 22 and the second self-locking structure 23 to move, so that the bottom cover 11 and the top cover 12 can rotate respectively.

It should be noted that the fingerprint identification switch 21 can identify fingerprint information and compare the identified fingerprint information with the pre-stored fingerprint information, and when the identified fingerprint information is the same as the pre-stored fingerprint information, the fingerprint identification switch 21 is turned on and can drive the first self-locking structure 22 and the second self-locking structure 23 to move, so that the bottom cover 11 and the top cover 12 can respectively rotate, and the bottom cover 11 and the top cover 12 can be opened; when the fingerprint identification switch 21 does not identify correct fingerprint information within a preset cooling time period, the fingerprint identification switch 21 is automatically turned off, and the first self-locking structure 22 and the second self-locking structure 23 are respectively restored to a locking state.

It is understood that the preset cooling time may be 10 seconds, 20 seconds, 30 seconds, etc., and different cooling times represent different time periods when the bottom cover 11 and the top cover 12 are in the rotatable state.

It should be understood that the above-mentioned locking state of the first self-locking structure 22 refers to a state that the first self-locking structure 22 is in when the first self-locking structure 22 locks and covers the bottom cover 11 on the container; the locked state of the second self-locking structure 23 refers to a state that the second self-locking structure 23 is in when the second self-locking structure 23 locks and covers the top cover 12 on the bottom cover 11.

Wherein the bottom cap 11 cannot rotate relative to the container when the first self-locking structure 22 locks and closes the bottom cap 11 on the container; when the second self-locking structure 23 locks and covers the top cover 12 on the bottom cover 11, the top cover 12 cannot rotate relative to the bottom cover 11.

Above-mentioned container self-locking mechanism who provides, through set up auto-lock subassembly 2 on lid 1, can realize the locking to bottom 11 and top cap 12 on the lid 1 respectively, through setting up first auto-lock structure 22 and second auto-lock structure 23, and set up fingerprint identification switch 21 simultaneously and carry out unblock control to first auto-lock structure 22 and second auto-lock structure 23, thereby make above-mentioned container self-locking mechanism have self-locking function, the mode that adopts fingerprint identification simultaneously also lets the unblock of this mechanism simpler, also more intelligent.

It should be noted that the rotatable connection between the bottom lid 11 and the container may be a hinged or threaded engagement; the rotatable connection between the top cover 12 and the bottom cover 11 may also be a hinged or threaded engagement.

It will be appreciated that the container may be a cup or a trough or the like.

Referring to fig. 1 and 4, in one embodiment, the fingerprint identification switch 21 includes a fingerprint identification module, a relay 212, and a telescopic structure 213; the fingerprint identification module is electrically connected with the relay 212, the fingerprint identification module can identify fingerprint information and control the relay 212 to be charged and powered off, the relay 212 is connected with the telescopic structure 213, and the telescopic structure 213 is respectively connected with the first self-locking structure 22 and the second self-locking structure 23; when the relay 212 is in the charging state, the relay 212 can drive the telescopic structure 213 to move so as to respectively move the first self-locking structure 22 and the second self-locking structure 23; when the relay 212 is in the power-off state, the first and

second latch structures

22 and 23 will each return to the locked state.

By adopting the fingerprint identification module and the relay 212 to control the movement of the telescopic structure 213, the unlocking mode of the container self-locking mechanism is simpler and more intelligent.

It should be noted that, when the fingerprint information identified by the fingerprint identification module is consistent with the pre-stored fingerprint information, the relay 212 is charged; when the fingerprint information identified by the fingerprint identification module is inconsistent with the pre-stored fingerprint information, the relay 212 is powered off.

It can be understood that the power element may also be used to drive the telescopic structure 213 to move, and the fingerprint identification module is used to control the power element to open and close; preferably, the power element may be a motor or a cylinder.

Referring to fig. 1, 3 and 4, in a specific embodiment, the first self-locking structure 22 includes a card strip 221 and a first elastic member 222, a positioning member 31 capable of being fitted into the card strip 221 is fixedly disposed on the container, a slot 311 into which the card strip 221 can be inserted is disposed on the positioning member 31, one end of the card strip 221 is connected to the first elastic member 222, the other end of the card strip 221 can be inserted into the slot 311, and the card strip 221 is further abutted to the telescopic structure 213; when the relay 212 is in the charging state, the telescopic structure 213 moves towards the first direction F1, and the telescopic structure 213 can push the clip strip 221 to move towards the first elastic member 222, so that the first elastic member 222 is in the compressed state, and when the relay 212 is in the de-charging state, the first elastic member 222 in the compressed state can drive the clip strip 221 to move towards the positioning member 31, so that the clip strip 221 is embedded into the clip slot 311, and the telescopic structure 213 moves towards the second direction F2. Wherein the first direction F1 and the second direction F2 are opposite.

It should be noted that the first elastic member 222 includes, but is not limited to, a spring.

Because the first elastic member 222 and the clamping strip 221 are both disposed on the cover body 1, and one end of the clamping strip 221 is connected with the first elastic member 222, when the other end of the clamping strip 221 is embedded into the clamping slot 311 under the action of the first elastic member 222, two ends of the clamping strip 221 are respectively connected with the cover body 1 and the container, so that the cover body 1 and the container cannot rotate relatively, and the container self-locking mechanism has a self-locking function and can be automatically locked on the container.

Referring to fig. 1, 3 and 4, in a specific embodiment, the second self-locking structure 23 includes a clip 231 and a second elastic member 232, one end of the clip 231 is connected to the second elastic member 232, the other end of the clip 231 is provided with a clipping portion capable of clipping with the top cover 12, and the middle of the clip 231 is provided with a rotating shaft; in the process that extending structure 213 moved towards first direction F1, extending structure 213 can promote fastener 231 and rotate around the rotation axis to make one end compression second elastic component 232 of fastener 231, make the joint portion of fastener 231 break away from with top cap 12 simultaneously, in the process that extending structure 213 moved towards second direction F2, second elastic component 232 that is in the compression state can drive fastener 231 and rotate around the rotation axis, so that joint portion can with top cap 12 joint.

It should be noted that the second elastic member 232 includes, but is not limited to, a spring.

After the engaging portion is disengaged from the top cover 12, the top cover 12 can be rotated relative to the bottom cover 11, so that the top cover 12 can be opened from the bottom cover 11.

Specifically, referring to fig. 5, the clamping portion is provided with a first trapezoidal clamping block 2311, and the top cover 12 is provided with a second trapezoidal clamping block 121 capable of being clamped with the first trapezoidal clamping block 2311. Wherein first trapezoidal fixture block 2311 has first inclined plane 23111, second trapezoidal fixture block 121 has the second inclined plane, realize the in-process of locking between top cap 12 and bottom cap 11, through rotating top cap 12, make second trapezoidal fixture block 121 extrude first trapezoidal fixture block 2311, during the extrusion, the second inclined plane and first inclined plane 23111 butt, fastener 231 rotates and extrudes second elastic component 232 around the rotation axis, treat that second trapezoidal fixture block 121 moves to the bottom of first inclined plane 23111 along first inclined plane 23111, fastener 231 rebounds under the drive of second elastic component 232 that is under the compression state, thereby make first trapezoidal fixture block 2311 and second trapezoidal fixture block 121 realize the joint.

In a specific embodiment, the two sides of the card 231 are symmetrically provided with protrusions 2312, the rotation axis coincides with the central axis of the two protrusions 2312, the bottom cover 11 is provided with a limiting groove 113 for limiting the protrusions 2312, and during the rotation of the card 231 around the rotation axis, the limiting groove 113 can limit the protrusions 2312 to prevent the card 231 from falling off the bottom cover 11.

Further, a connecting block for connecting with the second elastic member 232 is further provided on the clip 231. In order to make the movement of the card member 231 more stable in the process of rotating around the rotation axis, connection blocks connected with the second elastic member 232 are respectively provided at both sides of the card member 231.

Referring to fig. 3, fig. 4 and fig. 6, in a specific embodiment, the telescopic structure 213 includes a telescopic rod 2132 and a sliding block 2131, one end of the telescopic rod 2132 is connected to the relay 212, the other end of the telescopic rod 2132 is connected to one end of the sliding block 2131, and the other end of the sliding block 2131 abuts against the clamping strip 221; when the relay 212 is in a charging state, the telescopic rod 2132 drives the sliding block 2131 to move towards the first direction F1, and drives the clamping strip 221 to compress the first elastic piece 222; when the relay 212 is in the power-off state, the first elastic member 222 in the compressed state can drive the clip strip 221 to move toward the positioning member 31 due to the loss of the supporting function of the relay 212, so that the telescopic structure 213 moves toward the second direction F2.

It is understood that the telescoping structure 213 may be arranged in a variety of configurations, and the invention is not limited in this regard.

In a specific embodiment, referring to fig. 3 to 6, the slider 2131 includes an abutting portion 21311 abutting against the clip strip 221, a pushing portion 21313, and a connecting portion 231321312 for connecting the abutting portion 21311 and the pushing portion 21313, and the clip 231 is disposed above the connecting portion 231321312; in the process that the telescopic rod 2132 drives the sliding block 2131 to move towards the first direction F1, the pushing part 21313 can push the clip 231 to rotate around the rotating shaft.

Specifically, an opening groove 2314 into which the connecting portion 231321312 is inserted is formed in the clip piece 231, and in the process that the slider 2131 pushes the clip piece 231 to move, the connecting portion 231321312 is located in the opening groove 2314, and the pushing portion 21313 abuts against the clip piece 231. Through setting up open slot 2314, can make the structure of auto-lock subassembly 2 compacter, the in-process that fastener 231 moved is more stable.

Specifically, the abutting portion 21311 and the pushing portion 21313 are located at two ends of the connecting portion 231321312, wherein the abutting portion 21311 is used for pushing the clamping strip 221 to move, and the pushing portion 21313 is used for pushing the clamping piece 231 to move, so that when the sliding block 2131 moves towards the first direction F1, the clamping strip 221 and the clamping piece 231 can be pushed to move simultaneously, and the bottom cover 11 and the top cover 12 can be unlocked.

Note that, when the relay 212 is in the power-off state, a movable gap exists between the pushing portion 21313 and the catch 231. In this way, in the process of rotating the top cover 12 to lock the top cover 11, due to the pressing action of the second trapezoidal latch 121 on the top cover 12 on the latch piece 231 on the bottom cover 11, the latch piece 231 rotates around the rotation axis and presses the second elastic member 232, and when the second trapezoidal latch 121 moves along the first inclined surface 23111 to the bottom end of the first inclined surface 23111, the latch piece 231 rebounds under the driving of the second elastic member 232 in a compressed state. In this process, since there is a moving gap between the pushing portion 21313 and the clip 231, the slider 2131 is prevented from pressing the clip 231, so that it is more labor-saving in rotating the top cover 12 and locking it to the bottom cover 11.

Specifically, the slider 2131 has a first contact surface 21314 that contacts the clip 221, and the first contact surface 21314 extends obliquely downward in the first direction F1.

Further, the card bar 221 includes an insertion end 2212 for inserting into the card slot 311 and an abutting end 2211 for abutting against the slider 2131, and the abutting end 2211 has a second abutting surface 2213 abutting against the first abutting surface 21314. Thus, when the telescopic structure 213 moves in the first direction F1, the clamping strip 221 can be driven to move in the direction of the first elastic element 222.

In a specific embodiment, the self-locking assembly 2 further includes an annular strip 24, and the annular strip 24 is arranged around the first self-locking structure 22 and the second self-locking structure 23, so that the self-locking assembly 2 and the cover body 1 can be contacted more tightly, a good sealing effect is achieved, and the overall structure of the self-locking assembly 2 is more compact.

Referring to fig. 3 and 4, in a specific embodiment, the bottom cover 11 includes a middle case 111 and a lower case 112, the middle case 111 is fixedly disposed on the lower case 112, the lower case 112 is rotatably coupled to the container and covers the opening of the container, and the self-locking assembly 2 is disposed between the middle case 111 and the lower case 112.

Referring to fig. 1, 2 and 8, in a specific embodiment, the bottom cover 11 is provided at both ends thereof with a suction pipe and a suction nozzle respectively communicating with the through hole 114, the suction pipe faces the inside of the container and the suction nozzle faces the outside of the container when the container self-locking mechanism is closed on the container, and the suction nozzle is located between the top cover 12 and the bottom cover 11 when the top cover 12 is closed on the bottom cover 11.

Furthermore, the middle shell 111 is provided with an insertion opening 1111, the insertion opening 1111 can be used for the second trapezoidal clamping block 121 on the top cover 12 to be inserted, the clamping element 231 of the second self-locking structure 23 is located in the insertion opening 1111, and after the second trapezoidal clamping block 121 is inserted into the insertion opening 1111, the clamping element can be clamped with the first trapezoidal clamping block 2311 located in the insertion opening 1111.

Referring to fig. 7-10, the present application further provides a self-locking cup, which includes a cup body 3 and any one of the container self-locking mechanisms described above, wherein the container self-locking mechanism is rotatably connected to the cup body 3 and covers an opening of the cup body 3.

Above-mentioned auto-lock drinking cup that provides is through connecting the rotatable formula of container self-locking mechanism and closing cap on cup 3 for the drinking cup has had the auto-lock function, adopts fingerprint identification's mode also to make the unblock of auto-lock drinking cup simpler simultaneously, also more intelligent.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A container self-locking mechanism is characterized by comprising a cover body and a self-locking assembly; the cover body comprises a top cover and a bottom cover, the bottom cover can be rotatably connected to the container and covers the opening of the container, a through hole is formed in the bottom cover and is used for communicating with the interior of the container, and the top cover can be rotatably connected to the bottom cover and covers the through hole; the self-locking assembly is arranged on the cover body and comprises a fingerprint identification switch, a first self-locking structure and a second self-locking structure; the first self-locking structure can lock the bottom cover and seal the container, the second self-locking structure can lock the top cover and seal the bottom cover, and the fingerprint identification switch can drive the first self-locking structure and the second self-locking structure to move, so that the bottom cover and the top cover can rotate respectively.

2. The container self-locking mechanism according to claim 1, wherein the fingerprint identification switch comprises a fingerprint identification module, a relay and a telescopic structure; the fingerprint identification module is electrically connected with the relay, the fingerprint identification module can identify fingerprint information and control the relay to be charged and powered off, the relay is connected with the telescopic structure, and the telescopic structure is respectively connected with the first self-locking structure and the second self-locking structure; when the relay is in a charging state, the relay can drive the telescopic structure to move so as to respectively enable the first self-locking structure and the second self-locking structure to move.

3. The container self-locking mechanism according to claim 2, wherein the first self-locking structure comprises a clamping strip and a first elastic member, a positioning member capable of being fitted into the clamping strip is fixedly disposed on the container, a clamping groove for the clamping strip to be fitted into is disposed on the positioning member, one end of the clamping strip is connected to the first elastic member, the other end of the clamping strip is capable of being fitted into the clamping groove, and the clamping strip is further abutted to the telescopic structure; when the relay is in a charging state, the telescopic structure moves towards the first direction, the telescopic structure can push the clamping strip to move towards the direction of the first elastic piece, so that the first elastic piece is in a compression state, when the relay is in a power-off state, the first elastic piece in the compression state can drive the clamping strip to move towards the direction of the positioning piece, so that the clamping strip is embedded into the clamping groove, and the telescopic structure moves towards the second direction.

4. The container self-locking mechanism according to claim 3, wherein the second self-locking structure comprises a clamping piece and a second elastic piece, one end of the clamping piece is connected with the second elastic piece, the other end of the clamping piece is provided with a clamping part which can be clamped with the top cover, and the middle part of the clamping piece is provided with a rotating shaft; the telescopic structure court the in-process of first direction motion, telescopic structure can promote the fastener winds the rotation axis rotates, so that the one end compression of fastener the second elastic component the fastener joint portion with the top cap breaks away from the telescopic structure court the in-process of second direction motion is in compression state the second elastic component can drive the fastener winds the rotation axis rotates, so that joint portion can with the top cap joint.

5. The container self-locking mechanism according to claim 4, wherein the telescopic structure comprises a telescopic rod and a sliding block, one end of the telescopic rod is connected with the relay, the other end of the telescopic rod is connected with one end of the sliding block, and the other end of the sliding block is abutted against the clamping strip; when the relay is in a charging state, the telescopic rod drives the sliding block to move towards the first direction.

6. The container self-locking mechanism according to claim 5, wherein the slider comprises an abutting portion abutting against the clip strip, a pushing portion, and a connecting portion for connecting the abutting portion and the pushing portion, and the clip is disposed above the connecting portion; in the process that the telescopic rod drives the sliding block to move towards the first direction, the pushing part can push the clamping piece to rotate around the rotating shaft.

7. The self-locking mechanism for containers according to claim 5, wherein the slider has a first abutting surface abutting against the clip, and the first abutting surface extends obliquely downward in the first direction.

8. The self-locking mechanism for containers as claimed in claim 4, wherein the engaging portion is provided with a first trapezoidal engaging block, and the top cover is provided with a second trapezoidal engaging block engageable with the first trapezoidal engaging block.

9. The container self-locking mechanism of claim 1, wherein the bottom cover comprises a middle shell and a lower shell, the middle shell is fixedly arranged on the lower shell, the lower shell can be rotatably connected on the container and covers the opening of the container, and the self-locking assembly is arranged between the middle shell and the lower shell.

10. A self-locking drinking cup, comprising a cup body and the self-locking container mechanism of any one of claims 1 to 9, wherein the self-locking container mechanism is rotatably connected to the cup body and covers an opening of the cup body.