CN211500186U - Charging locking mechanism for sharing charging pal - Google Patents

Abstract

The utility model belongs to the technical field of the sharing treasured that charges uses equipment technique and specifically relates to indicate a locking mechanism that charges that sharing treasured used charges, it includes the casing, set up in the casing and be used for supplying the sharing to charge the charging cavity of precious holding and set up in the casing and be used for carrying out the locking device that locks to the sharing treasured that charges, locking device sets up in the casing and be used for to charge the precious retaining member that locks and be used for stopping retaining member pivoted stop subassembly to the sharing including rotating, the retaining member is provided with and is used for inserting the latch hook of locating in the recess on the sharing treasured that charges and is used for with the sharing treasured conflict that charges and promote. The utility model discloses a locking member and the mechanical transmission cooperation of stop subassembly have replaced the drive mode of current electricity jar, cylinder or spring, and this structure volume is less, and occupation space is less, makes the overall structure of locking mechanism that charges more simple compact from this, is suitable for the miniaturized manufacturing of sharing precious storage battery charging outfit that charges.

Description

Charging locking mechanism for sharing charging pal

Technical Field

The utility model belongs to the technical field of the sharing treasured service equipment that charges technique and specifically relates to indicate a sharing locking mechanism that charges that precious usefulness charges.

Background

The treasured that charges also is called portable power source, and its self possesses the accumulate function, can directly charge for electronic product such as cell-phone, flat board, camera through the data line, convenient to carry uses comparatively popularly. In some public places, people need charge to the electronic product temporarily sometimes, and consequently, the sharing treasured that charges is suitable for fortune, and the sharing treasured that charges need charge treasured access cabinet and store and charge. When charging in the precious access cabinet of charging is put into to the sharing treasured that charges, the locking mechanism that charges in the precious access cabinet of charging just locks and charges the sharing treasured that charges.

The locking mechanism that charges of today includes the activity setting and drives the electric jar, the cylinder or the spring etc. that the retaining member stretches into sharing treasured's that charges in treasured access cabinet that charges, however, this structure has following defect: the first, the electric cylinder and the air cylinder have the problems of large volume, large occupied space, high noise and high power consumption; secondly, the spring can lose elasticity easily after being used for a long time, so that the locking piece can lose effectiveness. This drawback is quite evident and an effective solution is needed.

Disclosure of Invention

An object of the utility model is to provide a simple structure is compact to prior art's not enough, moves reliable and stable, and the volume is less, and the locking mechanism that charges of low power dissipation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a pair of locking mechanism that charges that sharing treasured was used charges, it includes the casing, set up in the casing and be used for supplying the sharing to charge the charging cavity of precious holding, set up in the casing and be used for charging the precious locking device that locks to the sharing, locking device sets up in the casing and be used for charging the precious retaining member that locks and be used for stopping retaining member pivoted stopper subassembly to the sharing including rotating, the retaining member is provided with and is used for inserting the latch hook of locating in the sharing is charged the precious recess and is used for with the sharing charge precious conflict and promote the retaining member and be close to sharing and charge precious pivoted catch bar.

The stopping assembly comprises a memory alloy wire arranged in the shell and a fixed seat arranged at one end, far away from the locking part, in the shell, one end of the memory alloy wire is connected with the locking part, and the other end of the memory alloy wire is connected with the fixed seat; and two ends of the memory alloy wire are respectively connected with the anode and the cathode of an external power supply.

The stopping assembly comprises a stopping piece, a driving piece, a memory alloy wire and a fixed seat, wherein the stopping piece is rotatably arranged in the shell and used for stopping the locking piece from rotating, the driving piece is arranged in the shell and used for driving the stopping piece to always abut against the locking piece so as to stop the locking piece from rotating, the memory alloy wire is arranged in the shell, the fixed seat is arranged at one end, far away from the locking piece, in the shell, one end of the memory alloy wire is connected with the stopping piece, and the other end of the memory alloy wire; and two ends of the memory alloy wire are respectively connected with the anode and the cathode of an external power supply.

Furthermore, a stopping hook is arranged at one end, close to the stopping piece, of the locking piece, a hook head and a hook groove matched with the stopping hook are arranged at one end, close to the locking piece, of the stopping piece, and transition cambered surfaces which are in mutual abutting fit are arranged on the stopping hook and the hook head.

The number of the locking devices is two, and the two locking devices are respectively positioned on two sides of the charging chamber.

Wherein, the locking mechanism that charges still including set up in the bottom of the chamber that charges and be used for the sharing that holds in the chamber that charges to provide the supplementary magazine of elasticity.

Further, supplementary magazine attachment sets up in the casing and stretches to the ejector pin in the charging chamber including sliding, set up in the casing and be used for supporting the supporting seat of ejector pin and the first spring outside the ejector pin is located to the cover, the ejector pin evagination is equipped with the ring piece, the one end and the ring piece of first spring are contradicted, and the other end and the supporting seat of first spring are contradicted.

The charging locking mechanism further comprises a charging needle assembly arranged in the shell and located at the bottom of the charging cavity, the charging needle assembly comprises a fixed block arranged in the shell and a plurality of charging needles arranged along the length of the fixed block, and one ends of the charging needles protrude into the charging cavity.

The door plate for opening or closing the charging chamber is rotatably arranged at the opening end of the shell located in the charging chamber, the shell is provided with a detector for detecting the opening or closing of the door plate, a door plate stopping device for stopping the rotation of the door plate is arranged on one side, close to the door plate, of the charging chamber, and the detector is electrically connected with the door plate stopping device.

The utility model has the advantages that:

the utility model provides a charging locking mechanism for sharing a charger baby, in practical application, when the locking part is at an initial position, the locking hook of the locking part is positioned outside the charging cavity, and the push rod is positioned in the charging cavity; when a user pushes the shared charger baby into the charging chamber, the bottom of the shared charger baby is abutted against the push rod, when the shared charger baby is pushed to the bottom of the charging chamber, the shared charger baby drives the push rod and the locking piece to rotate close to the shared charger baby, and the rotating locking piece drives the lock hook to rotate and is embedded into the groove of the shared charger baby, so that the lock hook can clamp the shared charger baby; when the locking hook is used for clamping the shared charger baby, the stopping assembly stops the locking piece to prevent the locking piece from being far away from the shared charger baby to rotate, and therefore the locking piece can lock the shared charger baby in the charging chamber of the shell. The utility model adopts the mechanical transmission matching of the locking piece and the stopping component to replace the existing driving mode of an electric cylinder, an air cylinder or a spring, the structure has smaller volume and smaller occupied space, thereby leading the whole structure of the charging locking mechanism to be simpler and more compact and being suitable for the miniaturized production and manufacture of the shared charger storage charging equipment; meanwhile, the structure is stable and reliable, and even when the locking piece is strongly vibrated, the locking piece cannot rotate under the stop of the stop assembly, so that the locking effect of the shared charging treasure is improved, and the anti-theft performance of the shared charging treasure is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a first cross-sectional view of a first embodiment of the present invention;

fig. 3 is a second cross-sectional view of a first embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 5 is a cross-sectional view of the present invention with two sets of locking devices;

fig. 6 is a sectional view of a second embodiment of the present invention.

Description of the reference numerals

31. A locking device; 311. a locking member; 312. a latch hook; 313. a push rod; 314. a stop hook; 32. an auxiliary ejection device; 321. a supporting seat; 322. a material pushing rod; 323. a first spring; 324. a ring block; 33. a charging needle assembly; 331. a fixed block; 332. a charging pin; 34. a housing; 341. a charging chamber; 35. a door panel; 351. a memory alloy wire; 352. a fixed seat; 353. a stopper; 354. a hook head; 355. a hook groove; 356. a transition arc surface; 36. a door panel stop; 361. a stopper rod; 362. a micro drive motor; 363. a detector; 01. the treasured that charges is shared.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to fig. 1 to 6.

Example one

As shown in fig. 1 to 4, the utility model provides a pair of locking mechanism that charges that sharing treasured used charges, it includes casing 34, set up in casing 34 and be used for supplying the sharing to charge the charging cavity 341 of precious holding, set up in casing 34 and be used for to the sharing treasured locking device 31 that locks that charges, locking device 31 sets up including rotating in casing 34 and be used for carrying out the retaining member 311 that locks and be used for stopping retaining member 311 pivoted stop subassembly to the sharing treasured that charges, retaining member 311 is provided with and is used for inserting the latch hook 312 that locates in the sharing treasured recess that charges and is used for contradicting with the sharing treasured that charges and promote retaining member 311 to be close to sharing treasured pivoted catch bar 313 that charges.

In practical application, as shown in fig. 2, when the locking member 311 is in the initial position, the locking hook 312 of the locking member 311 is located outside the charging chamber 341, and the pushing rod 313 protrudes into the charging chamber 341; when a user inserts the shared charger into the charging chamber 341, the bottom of the shared charger is abutted against the push rod 313, when the shared charger is pushed to the bottom of the charging chamber 341, the shared charger drives the push rod 313 and the locking member 311 to rotate close to the shared charger, and the rotating locking member 311 drives the locking hook 312 to rotate and is embedded into the groove of the shared charger, so that the locking hook 312 can clamp the shared charger; as shown in fig. 3, when the locking hook 312 locks the shared charger, the stopping component stops the locking member 311 to prevent the locking member 311 from rotating away from the shared charger, so that the locking member 311 locks the shared charger in the charging chamber 341 of the housing 34 and cannot be pulled out. The utility model adopts the mechanical transmission matching of the locking piece 311 and the stop component to replace the existing driving mode of an electric cylinder, an air cylinder or a spring, the structure has smaller volume and smaller occupied space, thereby leading the whole structure of the charging locking mechanism to be more compact and more exquisite and compact, and being suitable for the miniaturized production and manufacture of the shared charger storage charging equipment; meanwhile, the structure is stable and reliable, and even if the locking member 311 is strongly vibrated, the locking member 311 cannot rotate under the stopping of the stopping assembly, so that the locking effect of the shared charging treasure is improved, and the anti-theft performance of the shared charging treasure is improved.

Preferably, the stopping assembly includes a stopping member 353 rotatably disposed in the housing 34 for stopping the rotation of the locking member 311, a driving member disposed in the housing 34 for driving the stopping member 353 to always abut against the locking member 311 to stop the rotation of the locking member 311, a memory alloy wire 351 disposed in the housing 34, and a fixing seat 352 disposed at one end of the housing 34 far from the locking member 311, wherein one end of the memory alloy wire 351 is connected to the stopping member 353, and the other end of the memory alloy wire 351 is connected to the fixing seat 352; two ends of the memory alloy wire 351 are respectively connected with the positive electrode and the negative electrode of an external power supply. Specifically, the driving member is a torsion spring, one end of the torsion spring is connected to the housing 34, and the other end of the torsion spring is connected to the stopper 353; the memory alloy wire 351 is an existing nickel-titanium alloy wire, and due to the property that the nickel-titanium alloy wire is heated to shrink, the nickel-titanium alloy wire can be heated to shrink after being electrified.

In practical application, after the shared charger baby is inserted into the charging chamber 341, the push rod 313 drives the locking member 311 to rotate close to the shared charger baby, the rotating locking member 311 drives the locking hook 312 to be embedded into the groove of the shared charger baby, so that the locking member 311 can clamp the shared charger baby, at the moment, the stop member 353 is always abutted against the locking member 311 under the action of the torsion spring and stops the locking member 311 from rotating away from the shared charger baby, and the shared charger baby can not be pulled out of the charging chamber 341; when the shared charger is required to be taken out, the nickel-titanium alloy wire is electrified, the electrified nickel-titanium alloy wire is heated and contracted, the contracted nickel-titanium alloy wire pulls the stopping piece 353 to rotate away from the locking piece 311, so that the stopping piece 353 releases the stopping of the locking piece 311, the locking piece 311 is in a free-rotating state, the shared charger is released and clamped, and the shared charger can be taken out from the charging chamber 341. Preferably, a stop hook 314 is disposed at one end of the locking member 311 close to the stop 353, a hook head 354 and a hook groove 355 engaged with the stop hook 314 are disposed at one end of the stop 353 close to the locking member 311, and the stop hook 314 and the hook head 354 are both provided with transition arc surfaces 356 engaged with each other in an interference manner. When the shared charger baby is inserted into the charging chamber 341, the shared charger baby abuts against and pushes the push rod 313 to rotate (as shown in fig. 4), the rotating push rod 313 drives the locking member 311 to rotate close to the shared charger baby, the rotating locking member 311 drives the locking hook 312 and the stop hook 314 to rotate synchronously, the rotating locking hook 312 is embedded into the groove of the shared charger baby, the rotating stop hook 314 slides into the hook groove 355 of the stop member 353 along the transition arc 356, so that the hook head 354 of the stop member 353 stops the stop hook 314, and the locking member 311 rotates away from the shared charger baby, so that the locking member 311 locks the shared charger baby, and the shared charger baby is prevented from being pulled out of the charging chamber 341. The design of this structure is simple compact, can lock retaining member 311 more firmly to make retaining member 311 be difficult to keep away from the sharing when receiving strong shock and charge precious rotation, strengthen the precious locking effect of sharing and charge precious theftproof performance from this and improve the sharing.

In the present technical solution, as shown in fig. 2, the number of the locking devices 31 and the stop assemblies is one, and the one group of the locking devices 31 and the stop assemblies are both used for locking one side of the shared power bank. Of course, as shown in fig. 5, the number of the locking devices 31 and the stopping assemblies is two, and the two groups of the locking devices 31 and the stopping assemblies are respectively located at two sides of the charging chamber 341. Adopt two sets of locking device 31 to lock the both sides of sharing treasured that charges respectively, further improve the locking force to sharing treasured that charges, prevent effectively that sharing treasured that charges from being pulled out the chamber 341 that charges by force easily to improve sharing treasured's theftproof nature that charges.

In this technical solution, the charging locking mechanism further includes an auxiliary elastic device 32 disposed at the bottom of the charging chamber 341 and configured to provide an elastic force for the shared charger held in the charging chamber 341. In practical application, when a user finishes a procedure of renting a shared charger, the stopping assembly releases the locking of the locking member 311 (namely, the nitinol wire is not electrified and returns to an initial state to release the locking member 311 to be tensioned), at this time, the auxiliary elastic device 32 provides certain elastic force to the bottom of the shared charger, so that the shared charger is ejected for a certain distance, the ejected shared charger pops the locking hook 312 open, the locking member 311 is far away from the shared charger to rotate, the rotating locking member 311 drives the push rod 313 to rotate towards the shared charger, and the rotating push rod 313 also provides certain pushing force to the bottom of the shared charger; sharing precious action of popping out that charges can give user's a suggestion that can take on the one hand, and on the other hand prevents that sharing precious card that charges from dying to the user of being convenient for can easily and smoothly take out sharing precious that charges.

Preferably, referring to fig. 3, the auxiliary charging device 32 includes a charging rod 322 slidably disposed in the housing 34 and protruding into the charging chamber 341, a supporting seat 321 disposed in the housing 34 and supporting the charging rod 322, and a first spring 323 sleeved outside the charging rod 322, wherein the charging rod 322 is convexly provided with a ring 324, one end of the first spring 323 abuts against the ring, and the other end of the first spring 323 abuts against the supporting seat 321. In practical applications, when the shared power bank is locked in the charging chamber 341, the material pushing rod 322 is pressed, so that the first spring 323 is in a compressed state; after the locking component releases the locking of the locking component 311, under the elastic force of the first spring 323, the material pushing rod 322 is pushed towards the shared charger, and the pushed material pushing rod 322 further pushes the shared charger in the charging chamber 341 to be pushed out by new pushing. The auxiliary material ejection device 32 has a simple and compact structure, stable and reliable operation and small occupied space.

In this embodiment, the charging locking mechanism further includes a charging pin assembly 33 disposed in the housing 34 and located at the bottom of the charging chamber 341, the charging pin assembly 33 includes a fixed block 331 disposed in the housing 34 and a plurality of charging pins 332 arranged along the length of the fixed block 331, one end of each of the charging pins 332 protrudes into the charging chamber 341, and the other end of each of the charging pins 332 is located in the housing 34 and connected to an external power line. The plurality of charging pins 332 are used for abutting connection of the charging devices of the shared charging pal, so as to charge the shared charging pal actually and newly.

In the present technical solution, a door panel 35 for opening or closing the charging chamber 341 is rotatably disposed at an opening end of the housing 34 located at the charging chamber 341, the housing 34 is provided with a detector 363 for detecting opening or closing of the door panel 35, a door panel stopper 36 for stopping rotation of the door panel 35 is disposed at one side of the charging chamber 341 close to the door panel 35, and the detector 363 is electrically connected to the door panel stopper 36. Specifically, the door plate 35 is installed on one side of the housing 34 through the matching of the rotating shaft and the torsion spring, and the door plate 35 can only rotate and open towards the direction inside the charging chamber 341, and the door plate 35 can realize automatic reset rotation under the acting force of the torsion spring to close the charging chamber 341; the door stop device 36 includes a micro-driving motor 362 installed in the housing 34 and a stop rod 361 connected to an output end of the micro-driving motor 362, and the stop rod 361 is located on the back of the door 35; the detector 363 is electrically connected to the micro-driving motor 362. In practical applications, the detector 363 is an inductive switch, when the door 35 is closed, the inductive switch detects that the door 35 is closed and sends a trigger signal to the micro-driving motor 362, and after receiving the trigger signal, the micro-driving motor 362 drives the stopping rod 361 to protrude to the back of the door 35 to stop the door 35, thereby preventing the door 3 from being opened randomly, and effectively protecting the charging pin 332 and the locking device 31 in the housing 34.

Specifically, the utility model discloses a theory of operation does: when the shared charger is taken out, the power supply only needs to electrify the memory alloy wire 351 for a little time, so that the memory alloy wire 351 contracts; the contracted memory alloy wire 351 pulls the stop piece 353 to rotate in a direction away from the locking piece 311, thereby driving the hook head 354 to be separated from the interference with the stop hook 314; at the moment that the locking member 311 is released and stopped, the material pushing rod 322 pushes the shared charger under the action of the elastic force of the first spring 323, the pushed shared charger moves away from the bottom of the charging chamber 341, the moved shared charger pushes the locking hook 312 to rotate, the rotating locking hook 312 drives the locking member 311 to rotate away from the shared charger, and then the hook groove 355 of the locking member 311 leaves the hook head 354 of the stopping member 353, at the moment, the power supply can stop the energization of the memory alloy wire 351, the stopping member 353 resets under the action of the torsion spring, so that the power supply does not need to energize the memory alloy wire 351 all the time, and the effect of saving energy consumption is achieved; when the shared charger baby is inserted into the charging chamber 341, the bottom of the shared charger baby pushes the push rod 313 to rotate, the rotating push rod 313 drives the locking member 311 to rotate close to the shared charger baby, and the rotating locking member 311 drives the stop hook 314 to rotate; the rotating stop hook 314 pushes the stop 353 open, and the stop hook 314 slides along the transition arc 356 into the hook slot 355 of the stop 353, so that the hook head 354 of the stop 353 stops the stop hook 314, thereby stopping the rotation of the locking member 311.

Example two

The second embodiment is different from the first embodiment in that: as shown in fig. 6, the stopping assembly includes a memory alloy wire 351 disposed in the housing 34 and a fixing seat 352 disposed at an end of the housing 34 far from the locking member 311, wherein one end of the memory alloy wire 351 is connected to the locking member 311, and the other end of the memory alloy wire 351 is connected to the fixing seat 352; two ends of the memory alloy wire 351 are respectively connected with the positive electrode and the negative electrode of an external power supply. Specifically, the memory alloy wire 351 is an existing nickel-titanium alloy wire, and due to the property of thermal contraction of the nickel-titanium alloy wire, after the nickel-titanium alloy wire is electrified, the nickel-titanium alloy wire can be heated to contract; the nickel titanium alloy silk of shrink just pulls retaining member 311 and is close to the rotation of charging chamber 341 all the time, and then makes retaining member 311's latch hook 312 joint all the time in the precious recess of sharing charges to the realization is to precious locking of sharing charging. The connecting structure of the nickel-titanium alloy wires is adopted, the structure is simple and compact, the occupied space is small, and the energy consumption can be reduced.

The rest of this embodiment is the same as the first embodiment, and the unexplained features in this embodiment are explained by the first embodiment, which is not described herein again.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (9)

1. The utility model provides a precious locking mechanism that charges that uses of sharing charges which characterized in that: including the casing, set up in the casing and be used for supplying the sharing to charge the precious chamber of charging of holding and set up in the casing and be used for charging the precious locking device that locks to the sharing, locking device sets up including rotating in the casing and is used for charging the precious retaining member that locks and be used for stopping retaining member pivoted and stop the subassembly to the sharing, the retaining member is provided with and is used for inserting the latch hook of locating in the recess on the sharing treasured that charges and is used for charging the precious conflict and promote the retaining member and be close to sharing treasured pivoted catch bar that charges.

2. The charging locking mechanism for the shared charger baby as claimed in claim 1, wherein: the stopping assembly comprises a memory alloy wire arranged in the shell and a fixed seat arranged at one end, far away from the locking piece, in the shell, one end of the memory alloy wire is connected with the locking piece, and the other end of the memory alloy wire is connected with the fixed seat; and two ends of the memory alloy wire are respectively connected with the anode and the cathode of an external power supply.

3. The charging locking mechanism for the shared charger baby as claimed in claim 1, wherein: the stopping assembly comprises a stopping piece, a driving piece, a memory alloy wire and a fixed seat, wherein the stopping piece is rotatably arranged in the shell and used for stopping the locking piece from rotating, the driving piece is arranged in the shell and used for driving the stopping piece to always abut against the locking piece so as to stop the locking piece from rotating, the memory alloy wire is arranged in the shell, the fixed seat is arranged at one end, far away from the locking piece, in the shell, one end of the memory alloy wire is connected with the stopping piece, and the other end of the; and two ends of the memory alloy wire are respectively and electrically connected with the positive electrode and the negative electrode of an external power supply.

4. The charging locking mechanism for the shared charger baby as claimed in claim 3, wherein: the locking piece is provided with a locking piece, the locking piece is provided with a locking hook at one end close to the locking piece, the locking piece is provided with a hook head and a hook groove matched with the locking hook at one end close to the locking piece, and the locking hook and the hook head are respectively provided with a transition cambered surface which is mutually abutted and matched.

5. The charging locking mechanism for the shared charger baby as claimed in any one of claims 1 to 4, wherein: the number of the locking devices is two, and the two locking devices are respectively positioned on two sides of the charging chamber.

6. The charging locking mechanism for the shared charger baby as claimed in claim 1, wherein: the charging locking mechanism further comprises an auxiliary elastic device which is arranged at the bottom of the charging cavity and used for providing elastic force for the shared charging treasure held in the charging cavity.

7. The charging locking mechanism for the shared charger baby as claimed in claim 6, wherein: supplementary elastic device including slide set up in the casing and stretch to the charging chamber in the ejector pad pole, set up in the casing and be used for supporting the supporting seat of ejector pad pole and the first spring outside the ejector pad pole is located to the cover, the ejector pad pole evagination is equipped with the ring piece, the one end and the ring piece of first spring are contradicted, and the other end and the supporting seat of first spring are contradicted.

8. The charging locking mechanism for the shared charger baby as claimed in claim 1, wherein: the charging locking mechanism further comprises a charging needle assembly arranged in the shell and located at the bottom of the charging cavity, the charging needle assembly comprises a fixed block arranged in the shell and a plurality of charging needles arranged along the length of the fixed block, and one ends of the charging needles protrude into the charging cavity.

9. The charging locking mechanism for the shared charger baby as claimed in claim 1, wherein: the door plate for opening or closing the charging chamber is rotatably arranged at the opening end of the shell located in the charging chamber, the shell is provided with a detector for detecting the opening or closing of the door plate, a door plate stopping device for stopping the rotation of the door plate is arranged on one side, close to the door plate, of the charging chamber, and the detector is electrically connected with the door plate stopping device.

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