CN109584465A - A kind of mobile power source charging module - Google Patents

Abstract

The present invention relates to a kind of mobile power source charging module, including shell, the Cang Dao of accommodating mobile power source is provided in shell；Tilt slide is set on the shell；The tilt slide is obliquely arranged with respect to Cang Dao, and one end extends towards the direction close to Cang Dao, the other end extends towards the direction far from Cang Dao；The charging module includes the sliding block for locking the mobile power source in the road of storehouse, and sliding block opposite can be slidably mounted on the tilt slide；The charging module further includes the power mechanism with movable slider sliding.The structure of mobile power source charging module of the present invention is simple, at low cost, it can be achieved that anti-theft function.

Description

A kind of mobile power source charging module

Technical field

The present invention relates to power supply unit field, especially a kind of mobile power source charging module.

Background technique

In the charging module of mobile power source automatic lending equipment, to the structure of charger baby locked or released, usually Charger baby is blocked using clamping or hook, structure is more complicated, higher cost, poor reliability, is easy to lead to lock or release mistake Spirit cannot achieve antitheft in just sincere justice.

Summary of the invention

The technical problems to be solved by the present invention are: providing a kind of mobile power source charging module, existing mobile power source is solved Charging module the problem of structure is complicated, poor reliability.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

A kind of mobile power source charging module, including shell are provided with the Cang Dao of accommodating mobile power source in shell；It is set on the shell Set tilt slide；The tilt slide is obliquely arranged with respect to Cang Dao, and one end is towards close to the extension of the direction of Cang Dao, other end court Direction far from Cang Dao extends；The charging module includes the sliding block for locking the mobile power source in the road of storehouse, and sliding block can be opposite It is slidably mounted on the tilt slide；The charging module further includes the power mechanism with movable slider sliding.

As a kind of specific embodiment, the power mechanism includes elastic element, feeding structure, rotational structure, magnetic One of attached structure or it is several in combination；Feeding structure or rotational structure are by motor or pneumatic actuation；The two sides Cang Dao point Not She Zhi a tilt slide, two tilt slides are along storehouse road longitudinal direction with inward against drawing close, be relatively distant from outward Ground setting；The sliding block is respectively set on two tilt slides；Sliding block is locked along sliding rail to close to the sliding of one end of Cang Dao Determine mobile power source, is unlocked to the other end sliding far from Cang Dao.

As a kind of specific embodiment, the charging module further includes the sliding for delivering mobile power source disengaging Cang Dao Frame, the sliding rack are slidably mounted on shell and limit the Cang Dao jointly；The sliding block is driven and edge by sliding rack Tilt slide sliding on shell；Power mechanism is connect with sliding rack.

As a kind of specific embodiment, the side wall of sliding rack is provided with the via hole with Cang Dao perforation, and sliding block is provided with pin Axis, pin shaft, which passes through the via hole, can protrude into or exit ground activity in the road of storehouse；Tilt slide of the sliding block on shell is slided and is driven The pin shaft passes through the via hole and protrudes into or exit Cang Dao to lock or unlock mobile power source；Lateral cunning is provided on sliding rack Rail, transversely sliding rail can laterally slidably cooperate the sliding block.

As a kind of specific embodiment, sliding block is provided with upward guiding axis, and upward guiding axis protrudes into horizontal slide rail Interior guiding sliding；A recess or perforation guide groove, institute is arranged in tilt slide on shell in the same direction along its length It states sliding block and is additionally provided with downward guiding axis, sliding block is located on the tilt slide on shell, and downward guiding axis protrudes into guide groove Interior guiding sliding；The lock-bit card slot being arranged on the pin shaft and mobile power source of sliding block mutually can cooperate to lock to clamping or disengaging Or unlock mobile power source.

As a kind of specific embodiment, power mechanism is elastic element；Pass through the elasticity between sliding rack and shell Element connection；When being not inserted into mobile power source in the road of storehouse, sliding rack is under elastic element effect in shell compared with outer end position, elasticity Element is in stretching or compressive state compared with small deformation amount；Mobile power source drives sliding rack ecto-entad mobile when being inserted into storehouse road, Elastic element is in the stretching or compressive state of moderate finite deformation amount.

As a kind of specific embodiment, when being not inserted into mobile power source in the road of storehouse, sliding block is under the promotion of sliding rack The relatively outer end position of tilt slide on shell is in contraction state relative to sliding rack inner wall, and sliding block is detached from mobile power source, sliding Limit face contact on frame one end and shell limits；When mobile power source is inserted into storehouse road ecto-entad promotion sliding rack, sliding block is in The tilt slide higher depth position of shell is in stretching state relative to sliding rack inner wall, and sliding block slid inward is extremely electric with movement Source locking.

The charging module further includes rocking bar, and rocking bar and sliding rack lock or unlock ground activity and cooperate；The rocking bar can turn It is installed in mobile power source charging module dynamicly.

As a kind of specific embodiment, the charging module includes the dynamical element for pushing rocking bar rotation；It is set on rocking bar It is equipped with latch portion；Guiding surface is provided on the sliding rack；By guiding surface and dynamical element respectively with the activity of rocking bar Cooperation, so that latch portion be driven to lock or release sliding rack；The rocking bar is configured with resetting structure, realizes oneself after push rod rotates It is dynamic to reset.

As a kind of specific embodiment, the dynamical element is electromagnetism push rod；The electromagnetism push rod is by control assembly control It makes it and pushes and pulls rocking bar and rotated to zero-bit or predetermined angular；The guiding surface of sliding rack to rocking bar promote or exit and/or Rotating rocker activity cooperation；The resetting structure is elastic element；The latch portion of rocking bar is hook or card slot, right on sliding rack Card slot or hook should be set and latch portion forms separable snap-fit；The sliding rack can be set with mutually exchanging on shell Guide pad/guide rail is set mutually to be slidably matched；Guide pad/guide rail is longitudinally disposed.

As a kind of specific embodiment, close to rocking bar one end, the latch portion of rocking bar is set to shakes the mandril of electromagnetism push rod The other end of bar；The other end activity of the guiding surface and rocking bar of sliding rack cooperates；It is promoted by guiding surface to rocking bar And rotating rocker and drive card slot or hook on sliding rack and latch portion snap-fit or rocking bar to be made by dynamical element rotation Latch portion be detached from sliding rack on card slot or hook and unlock；By mobile power source insertion storehouse road ecto-entad promotion sliding rack Guiding surface is driven to promote to the other end of rocking bar, until the latch portion locking that mobile power source moves inward rear rocking bar in place is slided Moving frame.

As a kind of specific embodiment, sliding rack bottom is provided with the downwardly projecting guide pad, and housing bottom is set The guide rail is set, the guide rail includes longitudinally disposed fluting, and guide pad passes through fluting and outwardly protrudes, the guiding surface of sliding rack It is set to one end of guide pad, the card slot or hook being arranged on sliding rack are set to the guide pad；Rocking bar passes through rotation Pair is rotatably mounted on shell；The elastic element of the resetting structure is the torsionspring for being installed on the revolute pair.

As a kind of specific embodiment, sliding rack and shell are respectively arranged with hook, the elasticity member as power mechanism The both ends of part, which are separately fixed on the hook being arranged on sliding rack and shell, makes elastic connection between sliding rack and shell；Sliding rack The fluting that the hook of upper setting passes through housing bottom guide rail is protruding；The elastic element is installed on the housing bottom back side, institute It states rocking bar and is installed on the housing bottom back side；Elastic element as power mechanism is extension spring.

As a kind of specific embodiment, the charging module further includes sensor, for incuding mobile power source and/or cunning The position of moving frame and/or rocking bar, and inductive signal is sent to control assembly；Control assembly according to the inductive signal received, The operating state of each functional unit is orderly controlled, and judges whether mobile power source is properly inserted into the mould group.

The beneficial effects of the present invention are:

Mobile power source charging module of the present invention realizes the locking and release of mobile power source by using tilt slide and sliding block, therefore Structure is simple, at low cost, it can be achieved that anti-theft function.

In addition, carrying mobile power source using sliding rack, realizes that mobile power source passes in and out mould group, further use rocker-type hook The locking and release for realizing sliding rack, obtain reliable anti-theft function.

The present invention is described in further detail below in conjunction with the accompanying drawings.

Detailed description of the invention

Fig. 1 is the explosive view of mobile power source charging module of the embodiment of the present invention.

Fig. 2 (a) ~ 2 (e) is the perspective view of mobile power source charging module hole capital after selling all securities state of the embodiment of the present invention, wherein Fig. 2 (a) It is from the perspective view of top, front side and right side perspective, Fig. 2 (b) is the perspective view that Fig. 2 (a) transverse cutting is had no progeny, and Fig. 2 (c) is bottom The perspective view in portion, left side and front side visual angle, Fig. 2 (d) are the perspective views that 2 (c) transverse cuttings are had no progeny, and Fig. 2 (e) is that Fig. 2 (a) is longitudinally cut The perspective view having no progeny.

Fig. 3 (a) ~ 3 (e) is that structure of mobile power source of the embodiment of the present invention charging module under mobile power source export state is shown It is intended to, wherein Fig. 3 (a) is from the perspective view of top, front side and right side perspective, and Fig. 3 (b) is the solid that Fig. 3 (a) transverse cutting is had no progeny Figure, Fig. 3 (c) is the perspective view of bottom, left side and front side visual angle, and Fig. 3 (d) is the perspective view that 3 (c) transverse cuttings are had no progeny, Fig. 3 (e) It is the perspective view after Fig. 3 (a) is longitudinally truncated.

Fig. 4 (a) ~ 4 (e) is the solid after mobile power source puts in storage in place in mobile power source charging module of the embodiment of the present invention Figure, wherein Fig. 4 (a) is from the perspective view of top, front side and right side perspective, and Fig. 4 (b) is the solid that Fig. 4 (a) transverse cutting is had no progeny Figure, Fig. 4 (c) is the perspective view of bottom, left side and front side visual angle, and Fig. 4 (d) is the perspective view that 4 (c) transverse cuttings are had no progeny, Fig. 4 (e) It is the perspective view after Fig. 4 (a) is longitudinally truncated.

Specific embodiment

It should be noted that in the absence of conflict, each embodiment in the application and the feature in embodiment can be with It is combined with each other, invention is further described in detail in the following with reference to the drawings and specific embodiments.

It please refers to shown in Fig. 1-4, the embodiment of the present invention is related to a kind of mobile power source charging module 100, mainly includes shell Body 1, sliding rack 2, sliding block 3, rocking bar 4, control assembly 7, detection components (not shown), cover board 17 and power mechanism.In shell 1 Portion is accommodating cavity, and sliding rack 2 is slidably mounted in the accommodating cavity of shell 1 by sliding block 3 and common restriction is for mobile power source The storehouse road 11 of disengaging movement and charging, sliding rack 2 deliver mobile power source and pass in and out Cang Dao, complete the lending of mobile power source, give back Charging etc..The front end Cang Dao is that mobile power source entrance is storehouse road junction 19.Sliding block 3 is simultaneously for locking mobile power source 9.Rocking bar 4 is to use In the structure of locking sliding rack 2, specifically rocking bar 4 can be pushed to rotate using electromagnetism push rod 6 by way of Electromagnetic Control, from And lock or unlock sliding rack 2.After the locking effect of rocking bar 4 releases, sliding rack 2 drives and slides under the action of power mechanism Moving frame 2 moves out, and completes lending mobile power source 9.The simple embodiment of power mechanism is the elastic force that elastic element 5 generates, Pulling force or thrust drive sliding rack 2 to move.

Wherein, shell 1 is the primary structure body of mobile power source charging module, and each functional component is installed on shell 1. Contain mobile power source accommodating cavity in shell 1, mobile power source 9 can also be used as simultaneously and complete charging and communication in charging module 100 Position.Sliding rail 10 is provided on shell 1, for the motion guide of sliding block 3, sliding block 3 can be slided along sliding rail 10.The present embodiment In, sliding rail 10 has certain tilt angle, i.e., the extending longitudinally direction from the outside to the core of sliding rail 10 when there is Xiang Cangdao center line simultaneously The trend or deviation center line drawn close.Sliding rail 10 includes the identical longitudinally guiding slot 101 in direction of an one fixed width, sliding block 3 Longitudinal and transverse direction displacement occurs simultaneously along guide groove when along sliding rail sliding.The direction that two sliding rails 10 extend internally is opposite to be leaned on Hold together, outwardly extending direction is relatively distant from.It is consistent with the direction of motion that mobile power source passes in and out that longitudinal direction is generally referred to, with Cang Dao The consistent direction of depth；It is laterally generally door 8 or the width direction of mobile power source or Cang Dao is consistent.

Sliding rail 10 is that sliding block 3 provides guiding.Sliding block 3 can slide along sliding rail 10 while generate vertical and horizontal displacement.Sliding rail 10 (i.e. disengaging direction of the mobile power source 9 in storehouse road 11) settings along longitudinal direction, it is corresponding with lock-bit card slot on mobile power source 9.Such as figure 1, two sliding rails 10 are respectively arranged at 11 left and right sides of storehouse road, and close to the one end at storehouse road junction 19.

It is additionally provided with guide rail 12 on shell 1, provides longitudinal movement guiding for sliding rack 2, relatively hanging ground is longitudinal rail, including One or more.In conjunction with Fig. 1, Fig. 2 (c) (d) (e), 3 (c) (d) (e), 4 (c) (d) (e), guide rail 12 includes one longitudinally disposed Fluting, be opened in the bottom wall of storehouse road 11 or shell, and up and down.The guide pad 20 being arranged on sliding rack 2 is pierced by leads downwards Rail 12 is to the bottom wall back side of shell 1, to cooperate with rocking bar 4 and/or elastic element 5.20 phase of guide pad of guide rail 12 and sliding rack 2 Adaptation, shape and size are to adapt to be slidably matched between the guide pad 20 of sliding rack and guide rail 12, to sliding rack 2 in storehouse road 11 Delivery mobile power source disengaging movement is oriented to.It is steadily moved to realize that sliding rack delivers mobile power source, guide rail 12 is set to Shell (Cang Dao) bottom wall vertical central axis line position.Can be set one, also can be set it is a plurality of, it is a plurality of between can mutually put down It goes, 12 two sides of guide rail are additionally provided with two parallel auxiliary guide grooves, the flange pair with 2 back side of sliding rack in embodiment in figure It answers, flange is slidably matched in guide groove, slides sliding rack 2 more stable.

Shell 1 is equipped with hook 14 and/or guide way 16, fixation or supporting base end portion as elastic element 5.In conjunction with reference Fig. 2 (c) (e), 3 (c) (e), 4 (c) (e), the storehouse shell 1(road 11) bottom wall back side setting hook 14 is with elastic elements 5 One end.Guide way 16 is interspersed in spring (as elastic element 5) inner support for guiding elastomer dilatation, for rod-like structure Spring, spring are mounted on sliding rack 2 along guide way dilatation, the spring other end.

Sliding rack 2 is the structural member for supporting mobile power source, with mobile power source one under the action of external force or elastic element The longitudinal sliding motion on shell 1 is played, that is, following mobile power source 9, ecto-entad is mobile on shell 1 or moves back and forth from inside to outside.Knot It closes referring to Fig.1, Fig. 2 (c) (d) (e), 3 (c) (d) (e), 4 (c) (d) (e), hook 23 and/or guiding is provided on sliding rack 2 Body, fixation or supporting base end portion as elastic element, for installing the other end of spring (as elastic element 5), guidance elasticity The flexible deformation of element.Hook 23 and/or guide way are set to the sliding rack back side, and downwardly projecting extension is pierced by housing rails 12 Perforation fluting it is protruding, with elastic elements 5.

Card slot 21 is provided on sliding rack 2, the position of the hook locking sliding rack 2 for rocking bar 4.It is also set on sliding rack 2 It is equipped with guiding surface 22, is the position for pushing rocking bar 4 to rotate for sliding rack 2.Specifically, it is provided with guide pad 20 on sliding rack 2, Guiding for being moved back and forth inside and outside sliding rack 2, while being used as the latch segment being clamped in rocking bar 4.Guide pad 20 is to be set to The convex block at the sliding rack back side, more specifically a fin, one end are provided with guiding surface 22, and card slot 21 is arranged in the other end. The hook of guiding surface 22 and rocking bar 4 is slidably matched to locking or unlock, and locking when the hook of rocking bar 4 catches on card slot 21 is detached from It is unlocked when card slot 21.

2 two sides of sliding rack are provided with horizontal slide rail 24, are to provide the position of laterally steering and longitudinal spacing for two side slides 3 It sets.In the present embodiment, the side wall of sliding rack 2 forms hollow cross-brace axis 26 with outwardly protruding, and is set to sliding rack front end, Horizontal slide rail 24 is a horizontal concrete chute being set in hollow support axle 26.The corresponding sliding rack side in 26 inside of hollow support axle The via hole 27 of perforation sidewall thickness is provided at wall.Horizontal concrete chute is also the fluting for penetrating through hollow support axle, is laterally arranged to draw 3 or so transverse shifting of slider guide.Sliding block 3 is installed in hollow support axle 26 and reciprocatingly slides before and after sliding rack 2, while can be in sky Left and right transverse shifting in heart support shaft 26, i.e., it is mobile close to or far from the direction of sliding rack, thus in locking or release storehouse road 11 Mobile power source.When moving left and right, sliding block 3 is stretched close to or far from the mobile power source in the road of storehouse, across via hole 27 into storehouse road 11 It out or retreats, is caught in or exits the card slot being arranged on mobile power source, thus locking or release mobile power source.When it is implemented, sliding Pin shaft 31 is arranged in 3 side of block, may pass through the via hole 27 of 2 side wall of sliding rack and mobile power source clamping or exits ground activity and cooperate, sliding The pin shaft 31 of block can be except the road Yin Suocang when exiting aperture 27.The guiding axis 32 to raise upward is arranged in sliding block top surface, is pierced by The horizontal concrete chute being arranged in hollow support axle 26 i.e. sliding rail 24, guide shoe 3 move laterally.

When being not inserted into mobile power source in mould group 100, sliding rack 2 is under elastic element effect in shell 1 compared with outer end position Set, the relatively outer end on 2 one end of sliding rack and shell 1 limits face contact at this time, elastic element 5 be in compared with small deformation amount stretching or Compressive state.Sliding block is located at 10 front end of sliding rail, except 31 road Yin Suocang 11 of pin shaft of sliding block, does not extend into the road of storehouse.Sliding rack 2 Rear wall is spaced one section of axial clearance apart from backboard 18, is arranged on the longitudinal length of gap longitudinal length and sliding rail 10, guide pad 20 Guiding surface 22 endpoint and card slot 21 between longitudinal length may be configured as corresponding to each other or be adapted to.

Sliding block 3 is the main components for realizing mobile power source locking and release, is symmetrically arranged on 1 two sides of shell.On sliding block 3 Upward guiding axis 32 is provided in top surface, bottom surface is provided with downward guiding axis 33, and horizontal pin shaft 31 is arranged in side.Sliding block 3 It is installed on 24 lower section of horizontal slide rail of sliding rack 2, can be installed on movably forward and backward in the accommodating cavity of shell together with sliding rack 2, The rear tilt slide 10 being finally assembled in together on shell 1 in the cross-brace axis 26 of sliding rack 2 of sliding block 3, in sliding rack 2 It is slided under promotion along the tilt slide 10 on shell 1.The guiding axis 33 of 3 bottom of sliding block protrudes into the longitudinally guiding of tilt slide 10 In slot 101, with the longitudinal movement of guide runner.Sliding block 3 is driven by sliding rack 2 and the sliding rail 10 on shell 1 slides back and forth.

When 100 ecto-entad of mould group moves, sliding block 3 is moved relative to sliding rack 2 to central axes sliding rack 2, i.e., two is sliding Block 3 is mobile to centre, is gradually inserted the card slot of mobile power source, realizes the locking of mobile power source.Sliding rack 2 is in mould group 100 by interior When being displaced outwardly, sliding block 3 is moved relative to sliding rack 2 to far from central axes direction, i.e., two sliding blocks 3 are outwardly away from movement opposite to each other, The card slot for progressively disengaging mobile power source realizes the release of mobile power source.When mould group has been not inserted into mobile power source, sliding block 3 is being slided Under the promotion of frame 2, the relatively outer end position of tilt slide on shell 1 is in contraction state relative to 2 inner wall of sliding rack.

Rocking bar 4 is the important feature part for realizing sliding rack 2 locking and release, is rotatably mounted in a manner of revolute pair 40 In on 1 locating shaft of shell.Close to dynamical element, rotation is realized in the power effect for perceiving dynamical element for one end 41；The other end is equipped with lock Buckle, specially hook 42 lock or unlock mobile power source for locking or unlocking sliding rack 2.Rocking bar 4 is mating to be provided with Resetting structure, such as elastic element 43(can be torsionspring, extension spring or compressed spring) realize rotation after it is automatic answer , it uses torsion spring as resetting structure in the present embodiment, is installed in revolute pair 40.Mould group 100 has been not inserted into movement When power supply, rocking bar 4 is in zero-bit state under the effect of elastic element 43, and the hook end 42 of rocking bar 4 is oriented to close to sliding rack 2 at this time Inclined-plane 22, one end 41 opposite with hook end is close to dynamical element end face.Hook end 42 and the card slot 21 of sliding rack bottom can block Tight fit.Referring to Fig.1, Fig. 2 (c) (d), 3 (c) (d), 4 (c) (d), rocking bar 4 is L-shaped, including two cursors, two cursors Be connected, hook is arranged in the free end of a cursor, for cooperating with actively lock or be detached from sliding rack, another cursor and Dynamical element cooperation, can be pushed by dynamical element, and rocking bar 4 is driven to swing or rotate, and hook end is made to lock or release sliding rack. The interconnecting piece of two cursors installs revolute pair 40, and rocking bar 4 is rotatably mounted to shell 1, is specifically mounted to outside housing bottom, Close to backboard 18.Single one rocking bar 4, which can be used only, in the present invention can realize the effect for locking or unlocking mobile power source.

When being not inserted into mobile power source in mould group 100, the hook 42 of rocking bar is located at 22 end of the guiding surface patch of sliding rack Closely, elastic element 5 is in stretching or compressive state compared with small deformation amount.Torsion spring is in rotation low-angle state.Door 8 Processing resets closed state.

Charging module 100 further includes dynamic mechanism, and the power of mobile power source disengaging is delivered as sliding rack 2.This implementation In example, using elastic element 5, the elastic force generated by elastic element drives sliding rack 2 to move out, thus band as power Dynamic 9 export of mobile power source.In the present embodiment, using extension spring as power mechanism, one end is fixed on shell 1, and the other end is solid It is scheduled on sliding rack 2.It is specifically set to the back side of shell 1 and sliding rack, close to door or other suitable positions, makes to slide Frame 2 moves out under elastic force (or other push away and/or motive force) effect.Other power mechanisms can also be used, such as by motor It generates and pushes away and/or motive force, feeding structure or rotational structure or magnetic suck structure etc. under driving or pneumatic actuation, drive sliding rack 2 move out.

Electromagnetism push rod 6 is the dynamical element of module internal, is pushed or pulled on according to the orderly realization of the instruction of control assembly 7 dynamic Make.When zero-bit state, the mandril of electromagnetism push rod 6 is close to 4 one end 41 of rocking bar.When electromagnetism push rod 6 has movement, the top of electromagnetism push rod 6 Bar makes rocking bar 4 turn an angle from zero-bit, until the latch portion of 4 one end of rocking bar discharges the locking to sliding rack 2.Hook release Afterwards, sliding rack 2 moves from inside to outside under the action of elastic element 5, makes the end of guiding surface 22 on sliding rack 2 close to rocking bar The hook position of 4 one end, and hook of the card slot 21 then far from rocking bar 4.After a certain period of time, the movement of electromagnetism push rod 6 terminates, rocking bar 4 It is returned to zero-bit under the action of elastic element, while 4 one end of rocking bar will push the mandril of electromagnetism push rod 6, it is made to reply zero-bit.

In the present embodiment, electromagnetism push rod 6 is set to 18 rear of backboard of shell 1, is provided with corresponding aperture on backboard 18, Mandril passes through movable out, the cursor of promotion rocking bar 4 or the cursor promotion by rocking bar 4 before aperture and rocking bar 4.

In addition to electromagnetism push rod 6, shaft, push rod, wheel or band structure also can be set, by the modes such as electric and pneumatic, come There is provided power rotates rocking bar 4.Both ends opposite with rocking bar provide motive force respectively for dynamical element and the inclined-plane of sliding rack.

Control assembly 7 is the control centre of entire charging module, and each functional component is electrically connected with control assembly 7.Control group Microprocessor in part 7 comprising data transfer components, one or more.Under the control of control assembly 7, each functional unit according to The instruction of control assembly 7 orderly works.The mster-control centre of control assembly 7 and the self-service leased equipment of mobile power source connects simultaneously It connects, data communication is carried out between mster-control centre.

Control assembly 7 is set to control pcb board, is mountable to outside charging module, is mountable to the inside or outer of shell 1 Outer wall is fixed in portion, or is installed on any suitable location in the self-service leased equipment of mobile power source.

Detection components are mainly made of various mechanical sensors or infrared sensor etc..Detection components are mainly by sensing Device incudes the position of mobile power source or sliding rack 2 and rocking bar 4, and inductive signal is sent to control assembly 7.Control assembly 7 According to the inductive signal received, the operating state of each functional unit is orderly controlled, and judges whether mobile power source is correctly inserted into Into mould group.Charging module 100 may include two or more sensors, be installed on shell 1 one or more surfaces.One or more Sensor for detecting sliding rack 2 or whether mobile power source is correctly moved to correct position in shell 1, the biography of one or more Whether sensor is for detecting rocking bar 4 in zero-bit.

When assembling, sliding rack 2 is assemblied on shell 1, is specifically assembled in its accommodating cavity, and shape is adapted, and bottom wall leans on Closely together, the storehouse road 11 for mobile power source disengaging and is limited jointly；Sliding rack rear wall correspondence offers aperture, for the thimble that charges Across contacting charging with mobile power source.1 top cover of shell sets cover board 17, and internal common restriction accommodates the accommodating cavity of mobile power source, The corresponding guide rail 12 across 1 bottom of shell of the hook 23 and/or guide way and guide pad 20 of 2 bottom of sliding rack, with guide rail 12 It is slidably matched, can move with passing in and out along longitudinal direction.Elastic element 5 and rocking bar 4 are installed on the bottom of mould group 100.

It is as follows under the work original of charging module 100 of the present invention:

Before user leases mobile power source, mobile power source is in the mobile power source accommodating cavity in mould group, mobile power source and sliding Frame 2 is in position deeper inside shell 1, and mobile power source is lockked by the sliding block 3 of 1 two sides of shell, and sliding rack 2 is by rocking bar 4 one The hook at end locks.Sliding block 3 is in higher depth position on the tilt slide of shell 1 at this time, is in and stretches relative to 2 inner wall of sliding rack It does well, the elastic element 5 on sliding rack 2 is in the stretching or compressive state of moderate finite deformation amount, the elastic element 43 on rocking bar 4 In compared with small deformation amount state, make rocking bar 4 always in zero-bit.

When user needs to lease mobile power source, lease information is sent to by the control centre of mobile power source automatic lending equipment Charging module control assembly 7, control electromagnetism push rod 6 work, and rocking bar 4 is pushed to rotate, and the hook 42 of 4 one end of rocking bar is made to be detached from sliding The card slot 21 of frame 2.Sliding rack 2 moves from inside to outside under the pulling force of elastic element (spring) 5 or thrust, and drives movement Power supply moves from inside to outside, while the propelled longitudinally sliding block 3 of sliding rack 2 moves from inside to outside along the tilt slide on shell 1.It is sliding Block 3 under the guiding role of the tilt slide 10 of shell 1, longitudinally move from inside to outside, while horizontally to far from (or partially From) central axes direction is mobile, until sliding block 3 completely disengages mobile power source card slot, to release the locking to mobile power source.Sliding After frame 2 is displaced outwardly certain distance, it will stop moving under the position-limiting action of shell 1.Hereafter, mobile power source is made in self inertia Continue to be displaced outwardly certain distance under, so that mobile power source outer end is stretched out mould group outer end face certain length, taken convenient for user.Together When detect the movement position of mobile power source at any time by detection components, and position signal is sent to control centre.When user needs Mobile power source is given back, and mobile power source is gradually inserted mould group 100, after mobile power source is inserted into 100 certain depth of mould group, is pushed The ecto-entad on shell 1 of sliding rack 2 is mobile.The propelled longitudinally sliding block 3 of sliding rack 2 simultaneously, the tilt slide on shell 1 of sliding block 3 It under 10 guiding role, while realizing that longitudinal ecto-entad direction movement and laterally adjacent central axes direction are mobile, gradually leans on Card slot that is close and being inserted into mobile power source, realizes locking of the sliding block 3 to mobile power source.Meanwhile sliding rack 2 follows mobile power source mobile In to mould group when certain depth, rocking bar 4 (can be torsion, the extension spring of torsionspring under the action of elastic element power 43 Pulling force or compressed spring thrust), be caught in its end hook in the card slot 21 of sliding rack 2, realize to the lock of sliding rack 2 It is fixed, that is, complete the locking to mobile power source.Mobile power source is detected by detection components simultaneously or whether sliding rack 2 is moved into and fills The inside correct position of electric mould group, and detect the whether recovered zero-bit of rocking bar 4.Once detecting that mobile power source is correctly inserted Enter charging module, while rocking bar 4 restores zero-bit, will be carried out data transmission by data transfer components and mobile power source, including reads Mobile power source identity identification information reads mobile power source remaining capacity, reads mobile power source temperature, reads each component of mobile power source Working condition etc..And these information are sent to control assembly 7, and be further sent to the control centre of equipment.If mobile The low battery of power supply, then controlling charging assembly by control assembly 7 is that mobile power source charges.

The self-service leased equipment of mobile power source includes multiple duplicate charging modules 100, realizes the automatic lending of mobile power source Service.

Orientation or direction involved in above embodiments be in contrast, 19/ door 8 of storehouse road junction be front, storehouse road junction/ Door is inwardly opposite with door to be located at the rear Cang Dao for backboard.Disengaging movement is also to move forward and backward.Longitudinal direction refers to front-rear direction Or the direction of mobile power source disengaging.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, protection scope of the present invention are defined by the appended claims and their equivalents.

Claims (14)

1. a kind of mobile power source charging module, including shell, the Cang Dao of accommodating mobile power source is provided in shell；Its feature exists In: tilt slide is set on the shell；The tilt slide is obliquely arranged with respect to Cang Dao, one end towards close to Cang Dao side Extend to extension, the other end towards the direction far from Cang Dao；The charging module includes for locking the mobile power source in the road of storehouse Sliding block, sliding block opposite can be slidably mounted on the tilt slide；The charging module further includes with the dynamic of movable slider sliding Force mechanisms.

2. mobile power source charging module as described in claim 1, it is characterised in that: the power mechanism include elastic element, One of feeding structure, rotational structure, magnetic suck structure or it is several in combination；Feeding structure or rotational structure are by motor or gas Dynamic driving；The tilt slide is respectively set in the two sides Cang Dao, and two tilt slides are along storehouse road longitudinal direction with inside It is opposite to draw close, be arranged with being relatively distant from outward；The sliding block is respectively set on two tilt slides；Sliding block is along sliding rail to leaning on The one end in the road Jin Cang is slided and locks mobile power source, unlocks to the other end sliding far from Cang Dao.

3. mobile power source charging module as described in claim 1, it is characterised in that: the charging module further includes for delivering Mobile power source passes in and out the sliding rack of Cang Dao, and the sliding rack is slidably mounted on shell and limits the Cang Dao jointly；Institute State sliding block tilt slide sliding on shell by sliding rack drive；Power mechanism is connect with sliding rack.

4. mobile power source charging module as claimed in claim 3, it is characterised in that: the side wall of sliding rack is provided with to be passed through with Cang Dao Logical via hole, sliding block are provided with pin shaft, and pin shaft, which passes through the via hole, can protrude into or exit ground activity in the road of storehouse；Sliding block is along shell Tilt slide sliding and drive the pin shaft to pass through the via hole and protrude into or exit Cang Dao to locking or unlocking mobile power source； Horizontal slide rail is provided on sliding rack, transversely sliding rail can laterally slidably cooperate the sliding block.

5. mobile power source charging module as claimed in claim 4, it is characterised in that: sliding block is provided with upward guiding axis, to On guiding axis protrude into guiding sliding in horizontal slide rail；Tilt slide on shell be arranged in the same direction along its length one it is recessed Sunken or perforation guide groove, the sliding block are additionally provided with downward guiding axis, and sliding block is located on the tilt slide on shell, to Under guiding axis protrude into guiding sliding in guide groove；The lock-bit card slot being arranged on the pin shaft and mobile power source of sliding block can mutual clamping Or ground cooperation is detached to lock or unlock mobile power source.

6. mobile power source charging module as claimed in claim 3, it is characterised in that: power mechanism is elastic element；Sliding rack It is connect between shell by the elastic element；When being not inserted into mobile power source in the road of storehouse, sliding rack is under elastic element effect In shell compared with outer end position, elastic element is in stretching or compressive state compared with small deformation amount；When mobile power source is inserted into storehouse road Drive sliding rack ecto-entad mobile, elastic element is in the stretching or compressive state of moderate finite deformation amount.

7. mobile power source charging module as claimed in claim 6, it is characterised in that: sliding when being not inserted into mobile power source in the road of storehouse Block is under the promotion of sliding rack, the relatively outer end position of tilt slide on shell, is in contraction-like relative to sliding rack inner wall State, sliding block are detached from mobile power source, and the limit face contact on sliding rack one end and shell limits；Mobile power source is inserted into Cang Dao by extroversion When interior promotion sliding rack, sliding block is in the tilt slide higher depth position of shell, is in stretching state relative to sliding rack inner wall, Sliding block slid inward is locked to mobile power source.

8. mobile power source charging module as claimed in claim 6, it is characterised in that: the charging module further includes rocking bar, is shaken Bar and sliding rack lock or unlock ground activity and cooperate；The rocking bar is rotatably installed in mobile power source charging module.

9. mobile power source charging module as claimed in claim 8, it is characterised in that: the charging module includes that rocking bar is pushed to turn Dynamic dynamical element；Latch portion is provided on rocking bar；Guiding surface is provided on the sliding rack；Pass through guiding surface and power Element cooperates with the activity of rocking bar respectively, so that latch portion be driven to lock or release sliding rack；The rocking bar is configured with reset knot Structure, automatically reseting after realizing push rod rotation.

10. mobile power source charging module as claimed in claim 9, it is characterised in that: the dynamical element is electromagnetism push rod；Institute It states electromagnetism push rod and it is controlled from control assembly pushes and pulls rocking bar and rotated to zero-bit or predetermined angular；The guiding surface of sliding rack To rocking bar promote or exit and/or rotating rocker activity cooperation；The resetting structure is elastic element；The latch portion of rocking bar is Hook or card slot, card slot or hook are correspondingly arranged on sliding rack and latch portion forms separable snap-fit；The sliding rack It is mutually slidably matched with guide pad/guide rail can be arranged with mutually exchanging on shell；Guide pad/guide rail is longitudinally disposed.

11. mobile power source charging module as claimed in claim 10, it is characterised in that: the mandril of electromagnetism push rod is close to rocking bar one End, the latch portion of rocking bar are set to the other end of rocking bar；The other end activity of the guiding surface and rocking bar of sliding rack cooperates； It is promoted by guiding surface to rocking bar and rotating rocker drives card slot on sliding rack or hook and latch portion snap-fit, or Person's rocking bar is rotated the card slot for being detached from latch portion on sliding rack or hook by dynamical element and is unlocked；Storehouse is inserted by mobile power source Road ecto-entad pushes sliding rack and guiding surface is driven to promote to the other end of rocking bar, until mobile power source is moved into The latch portion of rocking bar locks sliding rack behind position.

12. mobile power source charging module as claimed in claim 10, it is characterised in that: sliding rack bottom is provided with downwardly projecting The guide pad, housing bottom is arranged the guide rail, and the guide rail includes longitudinally disposed fluting, guide pad pass through fluting to Outer protrusion, the guiding surface of sliding rack are set to one end of guide pad, and the card slot or hook being arranged on sliding rack are set to The guide pad；Rocking bar is rotatably mounted on shell by revolute pair；The elastic element of the resetting structure is is installed on State the torsionspring of revolute pair.

13. mobile power source charging module as claimed in claim 12, it is characterised in that: sliding rack and shell are respectively arranged with card Hook, the both ends of the elastic element as power mechanism be separately fixed on the hook being arranged on sliding rack and shell make sliding rack with Elastic connection between shell；The fluting that the hook being arranged on sliding rack passes through housing bottom guide rail is protruding；The elasticity member Part is installed on the housing bottom back side, and the rocking bar is installed on the housing bottom back side；Elastic element as power mechanism is to stretch Spring.

14. mobile power source charging module as claimed in claim 8, it is characterised in that: the charging module further includes sensor, Control assembly is sent to for incuding the position of mobile power source and/or sliding rack and/or rocking bar, and by inductive signal；Control group Part orderly controls the operating state of each functional unit according to the inductive signal received, and judges whether mobile power source is correctly inserted Enter into the mould group.