CN204966559U - Mobile device and battery module thereof - Google Patents
Mobile device and battery module thereof Download PDFInfo
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- CN204966559U CN204966559U CN201520687770.8U CN201520687770U CN204966559U CN 204966559 U CN204966559 U CN 204966559U CN 201520687770 U CN201520687770 U CN 201520687770U CN 204966559 U CN204966559 U CN 204966559U
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- locking piece
- operating parts
- battery modules
- shell
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model provides a battery module, include: and a housing. Locking device, set up in on the shell, be used for with the battery module locks on the consumer, locking device includes: slidable ground with the locking piece that the shell is connected, the locking piece can with the consumer card is held or is separated, and movably and the operating parts that the shell is connected, the operating parts with the locking piece butt to along the operation of scheduled operation direction the operating parts is with the drive the locking piece is followed predetermined slip direction slides, wherein, the scheduled operation direction with predetermined slip direction is inequality, through the operation the operating parts can make the locking piece with the consumer card is held or is separated, and not only simple structure has very high reliability moreover. The utility model also provides a have the mobile device of battery module.
Description
Technical field
The utility model relates to a kind of mobile device, particularly relates to a kind of mobile device and battery modules thereof.
Background technology
In today of battery technology develop rapidly, increasing electronic equipment uses battery as power supply.Locking device can be set on battery under normal circumstances, be convenient to fix on an electronic device when battery uses, and take off from electronic equipment when needing charging or change.What locking device generally included multiple elastic arm of directly extending from the shell of battery and was positioned at elastic arm end buckles pawl, by pressing the housing of piezoelectric battery.Make elastic arm by the locking driving button pawl to move to remove button pawl and electronic equipment after pressed by external force.But this design is when detaining pawl and closely locking in the electronic device, and user needs to apply the housing of larger pressure by piezoelectric battery, and button pawl just can be made to unlock from electronic equipment, be not easy to use.
Utility model content
In view of this, be necessary to provide a kind of mobile device easy to use and battery modules thereof, to solve the problem.
The utility model provides a kind of battery modules, comprising: shell; Locking device, is arranged on described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises: the locking piece be connected with described shell slidably, and described locking piece can hold with described power consumption equipment or be separated; And the operating parts be connected with described shell movably, described operating parts abuts with described locking piece, and along operating parts described in scheduled operation direction operation, slides along described predetermined glide direction to drive described locking piece; Wherein, described scheduled operation direction is not identical with described predetermined glide direction, by operating described operating parts, described locking piece can be made to hold with described power consumption equipment or be separated.
Described operating parts comprises the contact site contacted with described locking piece, when described operating parts rotates along described scheduled operation direction relative to described shell, described contact site drives described locking piece to slide along described predetermined glide direction relative to described shell simultaneously, to remove holding of described locking piece and described power consumption equipment.
Described locking piece comprises the inclined-plane contacted with described contact site, described inclined-plane tilts compared to described predetermined glide direction, when described operating parts rotates along described scheduled operation direction, described contact site slides to drive described locking piece to slide along described predetermined glide direction relative to described inclined-plane.
Described locking device comprises elastic component, and described elastic component is used for providing an elastic-restoring force to described locking piece, and described locking piece can be automatically reset after described predetermined glide direction is slided.
Described operating parts comprises the rotating shaft be connected with described shell rotationally, described rotating shaft two ends are vertical connecting handle and described contact site respectively, described handle makes described axis of rotation when described scheduled operation direction is rotated, and then described contact site is rotated along described scheduled operation direction.
Pull described handle along the direction that described battery modules is extracted, make described operating parts drive described locking piece to retract towards the inside of described shell; Or, pull described handle along the direction that described battery modules is inserted, make described operating parts drive described locking piece to retract towards the inside of described shell.
Described locking device comprises two described locking pieces, and described elastic component is fixed between two described locking pieces, and when described locking piece slides along described predetermined glide direction, described elastic component is along described predetermined glide direction generation elastic deformation.
The rotating shaft that described operating parts comprises button and is connected with described button, described rotating shaft is connected with described shell rotationally, and described contact site is located on described button, and described button drives described contact site to rotate along described scheduled operation direction when described axis of rotation.
Surface towards described shell presses down described button, makes described button drive described locking piece to retract towards described enclosure; Or, towards described shell surperficial pull-up described in button, make described button drive described locking piece to retract towards described enclosure.
Described operating parts slides along scheduled operation direction relative to described shell, slides along predetermined glide direction to drive described locking piece.
Described scheduled operation direction is vertical with described predetermined glide direction; And/or at least one in described operating parts and described locking piece is provided with inclined-plane, described inclined-plane tilts compared to described predetermined glide direction, the power along described scheduled operation direction is converted to the power along described predetermined glide direction by described inclined-plane; And/or slide towards the direction that described battery modules is extracted described operating parts, described operating parts is made to drive described locking piece to retract towards described enclosure.
Towards described in the direction operation that described battery modules is extracted during operating parts, described operating parts drives described locking piece to slide along described predetermined glide direction, to remove the lock-out state of described battery modules.
The utility model additionally provides a kind of mobile device, comprising: body, is provided with the battery compartment for receiving battery modules; Power set, are installed on described body; Described battery modules can plug in described battery compartment, and described battery modules is connected with described power set, and provides electric energy for described power set; Described battery modules comprises: shell; Locking device, is arranged on described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises: the locking piece be connected with described shell slidably, and described locking piece can hold with described power consumption equipment or be separated; And the operating parts be connected with described shell movably, described operating parts abuts with described locking piece, and along operating parts described in scheduled operation direction operation, slides along described predetermined glide direction to drive described locking piece; Wherein, described scheduled operation direction is not identical with described predetermined glide direction, by operating described operating parts, described locking piece can be made to hold with described power consumption equipment or be separated.
Described mobile device is unmanned vehicle, hand-held The Cloud Terrace or remote control battlebus.
Described operating parts comprises the contact site contacted with described locking piece, when described operating parts rotates along described scheduled operation direction relative to described shell, described contact site drives described locking piece to slide along described predetermined glide direction relative to described shell simultaneously, to remove holding of described locking piece and described power consumption equipment.
Described locking piece comprises the inclined-plane contacted with described contact site, described inclined-plane tilts compared to described predetermined glide direction, when described operating parts rotates along described scheduled operation direction, described contact site slides to drive described locking piece to slide along described predetermined glide direction relative to described inclined-plane.
Described locking device comprises elastic component, and described elastic component is used for providing an elastic-restoring force to described locking piece, and described locking piece can be automatically reset after described predetermined glide direction is slided.
Described operating parts comprises the rotating shaft be connected with described shell rotationally, described rotating shaft two ends are vertical connecting handle and described contact site respectively, described handle makes described axis of rotation when described scheduled operation direction is rotated, and then described contact site is rotated along described scheduled operation direction.
Pull described handle along the direction that described battery modules is extracted, make described operating parts drive described locking piece to retract towards the inside of described shell; Or, pull described handle along the direction that described battery modules is inserted, make described operating parts drive described locking piece to retract towards the inside of described shell.
Described locking device comprises two described locking pieces, and described elastic component is fixed between two described locking pieces, and when described locking piece slides along described predetermined glide direction, described elastic component is along described predetermined glide direction generation elastic deformation.
The rotating shaft that described operating parts comprises button and is connected with described button, described rotating shaft is connected with described shell rotationally, and described contact site is located on described button, and described button drives described contact site to rotate along described scheduled operation direction when described axis of rotation.
Surface towards described shell presses down described button, makes described button drive described locking piece to retract towards described enclosure; Or, towards described shell surperficial pull-up described in button, make described button drive described locking piece to retract towards described enclosure.
Described operating parts slides along scheduled operation direction relative to described shell, slides along predetermined glide direction to drive described locking piece.
Described scheduled operation direction is vertical with described predetermined glide direction; And/or at least one in described operating parts and described locking piece is provided with inclined-plane, described inclined-plane tilts compared to described predetermined glide direction, the power along described scheduled operation direction is converted to the power along described predetermined glide direction by described inclined-plane; And/or slide towards the direction that described battery modules is extracted described operating parts, described operating parts is made to drive described locking piece to retract towards described enclosure.
Towards described in the direction operation that described battery modules is extracted during operating parts, described operating parts drives described locking piece to slide along described predetermined glide direction, to remove the lock-out state of described battery modules.
The mobile device of the utility model and battery modules thereof and locking device, locking piece is driven to slide along predetermined glide direction when the operating parts of locking device moves along scheduled operation direction, described locking piece is made to remove the locking with mobile device, to extract battery modules, not only structure is simple, and has very high reliability.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of mobile device in the utility model.
Fig. 2 is the end view of mobile device in Fig. 1.
Fig. 3 is the schematic diagram of battery modules in the utility model first execution mode.
Fig. 4 is the explosive view of battery modules in Fig. 3.
Fig. 5 is the explosive view of locking device in Fig. 4.
Fig. 6 is the using state figure of locking device in Fig. 3.
Fig. 7 is the enlarged drawing of IV part in Fig. 6.
Fig. 8 is the schematic diagram of battery modules in the utility model second execution mode.
Fig. 9 be in Fig. 8 battery modules along the profile in V-V direction.
Figure 10 is the schematic diagram of battery modules in the utility model the 3rd execution mode.
Figure 11 be in Figure 10 battery modules along the profile in VI-VI direction.
Main element symbol description
Mobile device | 10 |
Body | 11 |
Battery compartment | 12 |
Battery modules | 13 |
Shell | 130、200、300 |
Upper cover | 131 |
Lower cover | 132、201 |
Accommodating groove | 1320 |
Storage tank | 1321、3020 |
Protecgulum | 133、202、302 |
Locking device | 140、210、310 |
Operating parts | 1400、2100、3100 |
Handle | 1401 |
Rotating shaft | 1402、3103 |
Contact site | 1403、2104、3104 |
Contact head | 1404 |
Locking piece | 1405、2105、3105 |
Main body | 1406 |
Holding section | 1407 |
Inclined-plane | 1408、3109 |
Fastener | 1409、2107、3107 |
Elastic component | 1410、2109、3108 |
Power set | 15 |
Rotor | 16 |
Through hole | 2020 |
Button | 2101、3101 |
Anti-skidding projection | 2102、3102 |
Extension | 2103 |
Linking arm | 2106、3106 |
Snap fit | 2108 |
Bonnet | 301 |
Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.
Embodiment
Below in conjunction with accompanying drawing, execution modes more of the present utility model are elaborated.When not conflicting, the feature in following embodiment and embodiment can combine mutually.
See also Fig. 1 and Fig. 2, the utility model provides a kind of mobile device 10, described mobile device 10 comprises body 11, battery modules 13 and the battery compartment 12 be located on described body 11 and power set 15, and described battery modules 13 is pluggable provides electric energy in described battery compartment 12 and for described power set 15.In the present embodiment, described mobile device 10 is unmanned vehicle, and described unmanned vehicle also has rotor 16, and described power set 15 are motor, and described in the electrical energy drive that described motor utilizes described battery modules 13 to provide, rotor 16 rotates.In other embodiments, described mobile device 10 can also be hand-held The Cloud Terrace or remote control battlebus etc.
It should be noted that, battery compartment 12 is not limited to the shell structure with opening, also can be frame structure, groove structure etc.
See also Fig. 3 and Fig. 4, the utility model first execution mode provides a kind of battery modules 13, and described battery modules 13 comprises shell 130 and locking device 140, and described shell 130 comprises upper cover 131 and the lower cover 132 of protecgulum 133 and mutual fastening.Described protecgulum 133 is fixed on one end of the described upper cover 131 after fastening and lower cover 132.In the present embodiment, described locking device 140 is installed on described lower cover 132.Described upper cover 131 and lower cover 132 fasten rear inside and form accommodating groove 1320, for receiving battery core (not shown).Described protecgulum 133 offers storage tank 1330.
Refer to Fig. 5, described locking device 140 comprises operating parts 1400, locking piece 1405 and elastic component 1410.Described operating parts 1400 can rotate along scheduled operation direction, and drives described locking piece 1405 to slide along predetermined glide direction, makes described locking piece 1405 remove the locking with described battery compartment 12, to extract described battery modules 13.
The rotating shaft 1402 that described operating parts 1400 comprises handle 1401 and is connected with described handle 1401, described rotating shaft 1402 is connected to described lower cover 132 rotationally, and described rotating shaft 1402 end is also provided with the contact site 1403 for abutting with described locking piece 1405.Particularly, the end of described contact site 1403 is formed with contact head 1404.In the present embodiment, the surface of described contact head 1404 is sphere, and described rotating shaft 1402 is perpendicular to described handle 1401 and contact site 1403.Certainly, in other embodiments, described contact head 1404 can be the face of the other types such as aspheric curved surface, plane.When described handle 1401 rotates and drives described rotating shaft 1402 to rotate, described contact site 1403 and contact head 1404 rotate around described rotating shaft 1402 along described scheduled operation direction, specifically in the present embodiment, described scheduled operation direction is for rotate around described rotating shaft 1402.In the present embodiment, described handle 1401 is " U " type structure, and two ends are respectively equipped with described rotating shaft 1402.
Described locking piece 1405 comprises main body 1406, described main body 1406 has the holding section 1407 for holding described elastic component 1410 and extends and the fastener 1409 parallel with described predetermined glide direction from described main body 1406, and the end of described fastener 1409 is formed with the inclined-plane relative to described predetermined glide direction predetermined oblique angle.Described main body 1406 also has the inclined-plane 1408 tilted relative to described predetermined glide direction.The inclined-plane 1408 of described main body 1406 is different from the incline direction on the inclined-plane that the end of described fastener 1409 is formed.
See also Fig. 6 and Fig. 7, during assembling, described handle 1401 is accommodated in the storage tank 1321 of described lower cover 132, and described contact head 1404 is connected to described inclined-plane 1408, and described fastener 1409 is exposed to the outside of described lower cover 132.Described elastic component 1410 one end is held in described holding section 1407, and the other end is fixed on described lower cover 132.In the present embodiment, when the direction of extracting along described battery modules 13 pulls described handle 1401 and drives described rotating shaft 1402 to rotate, described contact head 1404 rotate along described scheduled operation direction and with described inclined-plane 1408 relative sliding.Described contact head 1404 is converted to the power of sliding along described predetermined glide direction by described inclined-plane 1408 along the power that described scheduled operation direction is rotated, and drive described fastener 1409 to slide along described predetermined glide direction, to make described fastener 1409 described lower cover 132 of retracting inner, and then remove holding of described fastener 1409 and described battery compartment 12.In other embodiments, when the direction of extracting along described battery modules 13 pulls described handle 1401, described fastener 1409 described lower cover 132 of retracting also can be made inner.
Simultaneously, when described locking piece 1405 slides along described predetermined glide direction, there is elastic deformation and produce elastic-restoring force to act on described locking piece 1405 in described elastic component 1410, described locking piece 1405 can be automatically reset after sliding to described predetermined glide direction.
Be appreciated that, in other implementations, described locking device 140 also can be installed on described upper cover 131, even, described locking device 140 also can be installed on described protecgulum 133, as long as described upper cover 131 or described protecgulum 133 are formed with the structure of the described locking device of above-mentioned cooperation.
See also Fig. 8 and Fig. 9, the utility model second execution mode provides a kind of battery modules 20, and described battery modules 20 can to plug in described battery compartment 12 and to provide electric energy for described power set 15.Described battery modules 20 comprises shell 200 and locking device 210.Described shell 200 comprises lower cover 201 and protecgulum 202, and described protecgulum 202 offers through hole 2020.
Described locking device 210 comprises operating parts 2100, locking piece 2105 and elastic component 2109.Described operating parts 2100 is installed on described protecgulum 202, and can slide along described scheduled operation direction, and described locking piece 2105 is installed on described lower cover 201, and can slide along described predetermined glide direction.In the present embodiment, described scheduled operation direction is vertical with described predetermined glide direction.
The extension 2103 that described operating parts 2100 comprises button 2101 and is connected with this button 2101, described extension 2103 is also outstanding forms contact site 2104.In the present embodiment, described button 2101 also has multiple anti-skidding protruding 2102, to increase the frictional force of described button 2101.
Described locking piece 2105 comprises linking arm 2106 and fastener 2107, and described fastener 2107 is connected to one end of described linking arm 2106.Described fastener 2107 has the snap fit 2108 parallel with described predetermined glide direction, and the end of described snap fit 2108 is inclined-plane.In the present embodiment, the quantity of described locking piece 2105 is two, described elastic component 2109 is fixed between two described locking pieces 2105, and each described locking piece 2105 has two described linking arms 2106, and described fastener 2107 is fixed on the position of two described linking arm 2106 central authorities.
Described extension 2103 is accommodated in described through hole 2020, and described contact site 2104 is connected to described linking arm 2106 through described through hole 2020.In the present embodiment, described contact site 2104 has the inclined-plane tilted relative to described scheduled operation direction, and described linking arm 2106 has in the one end abutted with described contact site 2104 and matches and the inclined-plane tilted relative to described predetermined glide direction with the inclined-plane of described contact site 2104.In other embodiments, one of them can be only had to have inclined-plane in both described contact site 2104 and described linking arm 2106.
When described operating parts 2100 slides along the direction that described battery modules 20 is extracted, described contact site 2104 contacts with described linking arm 2106, and the inclined-plane relative sliding of the inclined-plane of described contact site 2104 and described linking arm 2106.Described contact site 2104 is converted to power along described predetermined glide direction along the power in described scheduled operation direction by the inclined-plane of described linking arm 2106, and drive described snap fit 2108 to slide to described predetermined glide direction, to make described snap fit 2108 described lower cover 201 of retracting inner, and then remove holding of described snap fit 2108 and described battery compartment 12.
Simultaneously, when described locking piece 2105 slides along described predetermined glide direction, there is elastic deformation and produce elastic-restoring force to act on described locking piece 2105 in described elastic component 2109, described locking piece 2105 can be automatically reset after sliding to described predetermined glide direction.
See also Figure 10 and Figure 11, the utility model the 3rd execution mode provides a kind of battery modules 30, and described battery modules 30 can to plug in described battery compartment 12 and to provide electric energy for described power set 15.Described battery modules 30 comprises shell 300 and locking device 310.Described shell 300 comprises bonnet 301 and protecgulum 302, and described protecgulum 202 offers storage tank 3020.
Described locking device 3010 comprises operating parts 3100, locking piece 3105 and elastic component 3108.Described operating parts 3100 is installed on the storage tank 3020 of described protecgulum 302, and described locking piece 3105 is installed on described bonnet 301, and can slide along described predetermined glide direction.
The rotating shaft 3103 that described operating parts 3100 comprises button 3101 and is connected with described button 3101, described rotating shaft 3103 is connected to described bonnet 301 rotationally, and described button 3101 also has contact site 3104.In the present embodiment, described button 3101 also has multiple anti-skidding protruding 3102, to increase the frictional force of described button 3101.
Described locking piece 3105 comprises linking arm 3106 and fastener 3107, and described fastener 3107 is connected to one end of described linking arm 3106 and parallel with described predetermined glide direction, and the end of described fastener 3107 is inclined-plane.The other end of described linking arm 3106 has the inclined-plane 3109 tilted relative to described predetermined glide direction.In the present embodiment, the quantity of described locking piece 2105 is two, described elastic component 3108 is fixed between two described locking pieces 3105, and each described locking piece 3105 has two described linking arms 3106, and described fastener 3107 is fixed on the position of two described linking arm 3106 central authorities.
Described contact site 3104 is connected to described inclined-plane 3109 through described storage tank 3020.In the present embodiment, when pressing down described button 3101 towards described shell bonnet 301, described button 3101 when described rotating shaft 3103 is rotated, described contact site 3104 rotate along described scheduled operation direction and with described inclined-plane 3109 relative sliding.Described contact site 3104 is converted to power along described predetermined glide direction along the power in described scheduled operation direction by described inclined-plane 3109, described fastener 3107 is driven to slide to described predetermined glide direction, to make described fastener 3107 described shell 300 of retracting inner, and then remove holding of described fastener 3107 and described battery compartment 12.In other embodiments, when towards button 3101 described in described bonnet 301 pull-up, described fastener 3107 also can be retracted the inside of described shell 300.
Simultaneously, when described locking piece 3105 slides along described predetermined glide direction, there is elastic deformation and produce elastic-restoring force to act on described locking piece 3105 in described elastic component 3108, described locking piece 3105 can be automatically reset after sliding to described predetermined glide direction.
The mobile device of the utility model execution mode and battery modules thereof and locking device, locking piece is driven to slide along predetermined glide direction when the operating parts of locking device moves along scheduled operation direction, described locking piece is made to remove the locking with mobile device, to extract battery modules, not only structure is simple, and has very high reliability.
Those skilled in the art will be appreciated that; above execution mode is only used to the utility model is described; and be not used as restriction of the present utility model; as long as within spirit of the present utility model, the appropriate change do above execution mode and change all drop within the claimed scope of the utility model.
Claims (25)
1. a battery modules, is characterized in that, comprising:
Shell;
Locking device, is arranged on described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises:
The locking piece be connected with described shell slidably, described locking piece can hold with described power consumption equipment or be separated; And
The operating parts be connected with described shell movably, described operating parts abuts with described locking piece, and along operating parts described in scheduled operation direction operation, slides along described predetermined glide direction to drive described locking piece;
Wherein, described scheduled operation direction is not identical with described predetermined glide direction, by operating described operating parts, described locking piece can be made to hold with described power consumption equipment or be separated.
2. battery modules as claimed in claim 1, it is characterized in that: described operating parts comprises the contact site contacted with described locking piece, when described operating parts rotates along described scheduled operation direction relative to described shell, described contact site drives described locking piece to slide along described predetermined glide direction relative to described shell simultaneously, to remove holding of described locking piece and described power consumption equipment.
3. battery modules as claimed in claim 2, it is characterized in that: described locking piece comprises the inclined-plane contacted with described contact site, described inclined-plane tilts compared to described predetermined glide direction, when described operating parts rotates along described scheduled operation direction, described contact site slides to drive described locking piece to slide along described predetermined glide direction relative to described inclined-plane.
4. battery modules as claimed in claim 1, it is characterized in that: described locking device comprises elastic component, described elastic component is used for providing an elastic-restoring force to described locking piece, and described locking piece can be automatically reset after described predetermined glide direction is slided.
5. battery modules as claimed in claim 2, it is characterized in that: described operating parts comprises the rotating shaft be connected with described shell rotationally, described rotating shaft two ends are vertical connecting handle and described contact site respectively, described handle makes described axis of rotation when described scheduled operation direction is rotated, and then described contact site is rotated along described scheduled operation direction.
6. battery modules as claimed in claim 5, is characterized in that: pull described handle along the direction that described battery modules is extracted, makes described operating parts drive described locking piece to retract towards the inside of described shell;
Or, pull described handle along the direction that described battery modules is inserted, make described operating parts drive described locking piece to retract towards the inside of described shell.
7. battery modules as claimed in claim 4, it is characterized in that: described locking device comprises two described locking pieces, described elastic component is fixed between two described locking pieces, when described locking piece slides along described predetermined glide direction, described elastic component is along described predetermined glide direction generation elastic deformation.
8. battery modules as claimed in claim 2, it is characterized in that: the rotating shaft that described operating parts comprises button and is connected with described button, described rotating shaft is connected with described shell rotationally, described contact site is located on described button, and described button drives described contact site to rotate along described scheduled operation direction when described axis of rotation.
9. battery modules as claimed in claim 8, is characterized in that: the surface towards described shell presses down described button, makes described button drive described locking piece to retract towards described enclosure;
Or, towards described shell surperficial pull-up described in button, make described button drive described locking piece to retract towards described enclosure.
10. battery modules as claimed in claim 1, is characterized in that: described operating parts slides along scheduled operation direction relative to described shell, slides along predetermined glide direction to drive described locking piece.
11. battery modules as claimed in claim 10, is characterized in that: described scheduled operation direction is vertical with described predetermined glide direction;
And/or at least one in described operating parts and described locking piece is provided with inclined-plane, described inclined-plane tilts compared to described predetermined glide direction, the power along described scheduled operation direction is converted to the power along described predetermined glide direction by described inclined-plane;
And/or slide towards the direction that described battery modules is extracted described operating parts, described operating parts is made to drive described locking piece to retract towards described enclosure.
12. battery modules as claimed in claim 1, it is characterized in that: towards described in the direction operation that described battery modules is extracted during operating parts, described operating parts drives described locking piece to slide along described predetermined glide direction, to remove the lock-out state of described battery modules.
13. 1 kinds of mobile devices, is characterized in that, comprising:
Body, is provided with the battery compartment for receiving battery modules;
Power set, are installed on described body;
Described battery modules can plug in described battery compartment, and described battery modules is connected with described power set, and provides electric energy for described power set; Described battery modules comprises:
Shell;
Locking device, is arranged on described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises:
The locking piece be connected with described shell slidably, described locking piece can hold with described power consumption equipment or be separated; And
The operating parts be connected with described shell movably, described operating parts abuts with described locking piece, and along operating parts described in scheduled operation direction operation, slides along described predetermined glide direction to drive described locking piece;
Wherein, described scheduled operation direction is not identical with described predetermined glide direction, by operating described operating parts, described locking piece can be made to hold with described power consumption equipment or be separated.
14. mobile devices as claimed in claim 13, is characterized in that: described mobile device is unmanned vehicle, hand-held The Cloud Terrace or remote control battlebus.
15. mobile devices as claimed in claim 13, it is characterized in that: described operating parts comprises the contact site contacted with described locking piece, when described operating parts rotates along described scheduled operation direction relative to described shell, described contact site drives described locking piece to slide along described predetermined glide direction relative to described shell simultaneously, to remove holding of described locking piece and described power consumption equipment.
16. mobile devices as claimed in claim 15, it is characterized in that: described locking piece comprises the inclined-plane contacted with described contact site, described inclined-plane tilts compared to described predetermined glide direction, when described operating parts rotates along described scheduled operation direction, described contact site slides to drive described locking piece to slide along described predetermined glide direction relative to described inclined-plane.
17. mobile devices as claimed in claim 13, is characterized in that: described locking device comprises elastic component, described elastic component is used for providing an elastic-restoring force to described locking piece, and described locking piece can be automatically reset after described predetermined glide direction is slided.
18. mobile devices as claimed in claim 15, it is characterized in that: described operating parts comprises the rotating shaft be connected with described shell rotationally, described rotating shaft two ends are vertical connecting handle and described contact site respectively, described handle makes described axis of rotation when described scheduled operation direction is rotated, and then described contact site is rotated along described scheduled operation direction.
19. mobile devices as claimed in claim 18, is characterized in that: pull described handle along the direction that described battery modules is extracted, and make described operating parts drive described locking piece to retract towards the inside of described shell;
Or, pull described handle along the direction that described battery modules is inserted, make described operating parts drive described locking piece to retract towards the inside of described shell.
20. mobile devices as claimed in claim 17, it is characterized in that: described locking device comprises two described locking pieces, described elastic component is fixed between two described locking pieces, when described locking piece slides along described predetermined glide direction, described elastic component is along described predetermined glide direction generation elastic deformation.
21. mobile devices as claimed in claim 15, it is characterized in that: the rotating shaft that described operating parts comprises button and is connected with described button, described rotating shaft is connected with described shell rotationally, described contact site is located on described button, and described button drives described contact site to rotate along described scheduled operation direction when described axis of rotation.
22. mobile devices as claimed in claim 21, is characterized in that: the surface towards described shell presses down described button, make described button drive described locking piece to retract towards described enclosure;
Or, towards described shell surperficial pull-up described in button, make described button drive described locking piece to retract towards described enclosure.
23. mobile devices as claimed in claim 13, is characterized in that: described operating parts slides along scheduled operation direction relative to described shell, slides along predetermined glide direction to drive described locking piece.
24. mobile devices as claimed in claim 23, is characterized in that: described scheduled operation direction is vertical with described predetermined glide direction;
And/or at least one in described operating parts and described locking piece is provided with inclined-plane, described inclined-plane tilts compared to described predetermined glide direction, the power along described scheduled operation direction is converted to the power along described predetermined glide direction by described inclined-plane;
And/or slide towards the direction that described battery modules is extracted described operating parts, described operating parts is made to drive described locking piece to retract towards described enclosure.
25. mobile devices as claimed in claim 13, it is characterized in that: towards described in the direction operation that described battery modules is extracted during operating parts, described operating parts drives described locking piece to slide along described predetermined glide direction, to remove the lock-out state of described battery modules.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520687770.8U CN204966559U (en) | 2015-09-08 | 2015-09-08 | Mobile device and battery module thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520687770.8U CN204966559U (en) | 2015-09-08 | 2015-09-08 | Mobile device and battery module thereof |
Publications (1)
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Cited By (8)
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CN105826488A (en) * | 2016-05-24 | 2016-08-03 | 北京小米移动软件有限公司 | Multi-channel power supply cell structure, cell system and air vehicle |
CN106031318A (en) * | 2015-09-08 | 2016-10-12 | 深圳市大疆创新科技有限公司 | Mobile device, battery module thereof and locking device |
CN107108042A (en) * | 2016-09-21 | 2017-08-29 | 深圳市大疆创新科技有限公司 | Lock uint, unmanned plane and electronic equipment |
WO2018119724A1 (en) * | 2016-12-28 | 2018-07-05 | 深圳市大疆灵眸科技有限公司 | Power source module of cradle head, battery assembly and cradle head |
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US10224526B2 (en) | 2015-12-14 | 2019-03-05 | Autel Robotics Usa Llc | Battery used for unmanned aerial vehicle and an unmanned aerial vehicle |
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CN106031318A (en) * | 2015-09-08 | 2016-10-12 | 深圳市大疆创新科技有限公司 | Mobile device, battery module thereof and locking device |
WO2017041220A1 (en) * | 2015-09-08 | 2017-03-16 | 深圳市大疆创新科技有限公司 | Mobile device and battery module and locking device thereof |
CN106031318B (en) * | 2015-09-08 | 2017-09-08 | 深圳市大疆创新科技有限公司 | Mobile device and its battery modules and locking device |
US11254429B2 (en) | 2015-12-14 | 2022-02-22 | Autel Robotics Co., Ltd. | Battery used for unmanned aerial vehicle and unmanned aerial vehicle |
US10745128B2 (en) | 2015-12-14 | 2020-08-18 | Autel Robotics Co., Ltd. | Battery used for unmanned aerial vehicle and unmanned aerial vehicle |
US10224526B2 (en) | 2015-12-14 | 2019-03-05 | Autel Robotics Usa Llc | Battery used for unmanned aerial vehicle and an unmanned aerial vehicle |
US10442533B2 (en) | 2015-12-14 | 2019-10-15 | Autel Robotics Co., Ltd. | Battery used for unmanned aerial vehicle and unmanned aerial vehicle |
CN105826488A (en) * | 2016-05-24 | 2016-08-03 | 北京小米移动软件有限公司 | Multi-channel power supply cell structure, cell system and air vehicle |
CN109792011A (en) * | 2016-09-13 | 2019-05-21 | 佩朗股份有限公司 | Cell apparatus for battery support |
CN107108042A (en) * | 2016-09-21 | 2017-08-29 | 深圳市大疆创新科技有限公司 | Lock uint, unmanned plane and electronic equipment |
CN107108042B (en) * | 2016-09-21 | 2019-03-29 | 深圳市大疆创新科技有限公司 | Lock uint, unmanned plane and electronic equipment |
CN109860458A (en) * | 2016-12-28 | 2019-06-07 | 深圳市大疆灵眸科技有限公司 | Power supply mould group and holder |
WO2018119724A1 (en) * | 2016-12-28 | 2018-07-05 | 深圳市大疆灵眸科技有限公司 | Power source module of cradle head, battery assembly and cradle head |
CN108513564A (en) * | 2017-04-26 | 2018-09-07 | 深圳市大疆创新科技有限公司 | Electronic equipment |
CN108513564B (en) * | 2017-04-26 | 2023-05-02 | 深圳市大疆创新科技有限公司 | Electronic equipment |
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Granted publication date: 20160113 |