CN205005377U - Mobile device and battery module thereof - Google Patents

Abstract

The utility model provides a battery module, include: and a housing. Locking device, set up in the shell on the surface, be used for with the battery module locks on the consumer, locking device stretches out including at least part the outer fastener of shell, the fastener for the A predetermined direction slidable is followed to the shell, wherein, be in the battery module with when the consumer is connected, the fastener with consumer card is each other held, in order to incite somebody to action the battery module lock in on the consumer, the fastener is followed A predetermined direction can relieve when sliding the fastener with card between the consumer is held, and not only simple structure has very high reliability moreover. The utility model also provides a have the mobile device of battery module.

Description

Mobile device and battery modules thereof

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.Locking device generally includes the elastic arm directly extended from the housing of battery and the fastener being positioned at elastic arm end, by pressing the housing of piezoelectric battery, drives fastener to move locking with engagement release part and electronic equipment after making elastic arm be subject to pressed by external force.But this design is when fastener closely locks in the electronic device, user needs to apply the housing of larger pressure by piezoelectric battery, and fastener just can be made to unlock from electronic equipment, is not easy to use.

Utility model content

In view of this, be necessary to provide a kind of battery modules easy to use, to solve the problem.

The utility model provides a kind of battery modules, comprising: shell; Locking device, is arranged on the surface of described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises the fastener stretched out at least partly outside described shell, and described fastener relative to described shell along predetermined direction slidably; Wherein, when described battery modules is connected with described power consumption equipment, described fastener and described power consumption equipment hold mutually, to be locked on described power consumption equipment by described battery modules, described fastener can remove holding between described fastener and described power consumption equipment when described predetermined direction slides.

Described locking device comprises elastic component, and described elastic component is used for providing an elastic-restoring force to described fastener, and described fastener can be automatically reset after described predetermined direction slides; And/or the snap fit that described fastener comprises adapting rod and is connected with described adapting rod, described snap fit is vertical with described adapting rod and parallel with described predetermined direction.

Described locking device also comprises the sliding part that described fastener can be driven to slide, and by the described sliding part that slides, makes described fastener engage with described power consumption equipment or be separated; And/or described sliding part is provided with multiple anti-skidding projection.

Described locking device also comprises sliding beam, and described sliding part is fixedly connected with described sliding beam by connecting rod, and described fastener is positioned at the end of described sliding beam.

Described sliding beam is positioned at described enclosure, and described shell is provided with the slide opening corresponding with described connecting rod, and described connecting rod is connected with described sliding beam through described slide opening.

Described predetermined direction is parallel to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

Described locking device comprises button, and described button one end is provided with described fastener, by pressing described button, makes described fastener engage with described power consumption equipment or be separated; And/or described button is provided with multiple anti-skidding projection.

The snap fit that described fastener comprises switching piece and is connected with described switching piece, described snap fit is vertical with described switching piece and parallel with described predetermined direction; And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

The linking arm that described locking device comprises button and is connected with described button, described fastener is positioned at the free end of described linking arm, and described fastener is vertical with described linking arm and vertical with described predetermined direction; And/or described button is provided with multiple anti-skidding projection.

The quantity of described linking arm is two, two described linking arms are connected with the two ends of described button respectively, form U-shaped structure, the quantity of described fastener is two, two described fasteners lay respectively at the free end of two described linking arms, and two described fasteners lay respectively at the relative both sides of described shell; And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation 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 the surface of described shell, and for described battery modules is locked in described battery compartment, described locking device comprises the fastener stretched out at least partly outside described shell, and described fastener relative to described shell along predetermined direction slidably; Wherein, when described battery modules inserts described battery compartment, described fastener and described battery compartment hold mutually, and so that described battery modules is locked in described battery compartment, described fastener can remove holding between described fastener and described battery compartment when described predetermined direction slides.

Described mobile device is unmanned vehicle, hand-held The Cloud Terrace or remote control battlebus.

Described locking device comprises elastic component, and described elastic component is used for providing an elastic-restoring force to described fastener, and described fastener can be automatically reset after described predetermined direction slides; And/or the snap fit that described fastener comprises adapting rod and is connected with described adapting rod, described snap fit is vertical with described adapting rod and parallel with described predetermined direction.

Described locking device also comprises the sliding part that described fastener can be driven to slide, and by the described sliding part that slides, makes described fastener engage with described power consumption equipment or be separated; And/or described sliding part is provided with multiple anti-skidding projection.

Described locking device also comprises sliding beam, and described sliding part is fixedly connected with described sliding beam by connecting rod, and described fastener is positioned at the end of described sliding beam.

Described sliding beam is positioned at described enclosure, and described shell is provided with the slide opening corresponding with described connecting rod, and described connecting rod is connected with described sliding beam through described slide opening.

Described predetermined direction is parallel to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

Described locking device comprises button, and described button one end is provided with described fastener, by pressing described button, makes described fastener engage with described power consumption equipment or be separated; And/or described button is provided with multiple anti-skidding projection.

The snap fit that described fastener comprises switching piece and is connected with described switching piece, described snap fit is vertical with described switching piece and vertical with described predetermined direction; And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

The linking arm that described locking device comprises button and is connected with described button, described fastener is positioned at the free end of described linking arm, and described fastener is vertical with described linking arm and vertical with described predetermined direction; And/or described button is provided with multiple anti-skidding projection.

The quantity of described linking arm is two, two described linking arms are connected with the two ends of described button respectively, form U-shaped structure, the quantity of described fastener is two, two described fasteners lay respectively at the free end of two described linking arms, and two described fasteners lay respectively at the relative both sides of described shell; And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

The mobile device of the utility model and battery modules thereof, described battery modules has relative to shell slidably fastener, by the described fastener that slides along predetermined direction, make holding of the battery compartment of the releasing of described fastener and described mobile device, to extract described 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 schematic diagram of battery modules in Fig. 3.

Fig. 7 be in Fig. 6 battery modules along the cutaway view in VII-VII direction.

Fig. 8 is the schematic diagram of battery modules in the utility model second execution mode.

Fig. 9 is the explosive view of locking device in Fig. 8.

Figure 10 is the schematic diagram of battery modules in the utility model the 3rd execution mode.

Figure 11 is the explosive view of locking device in Figure 10.

Main element symbol description

Mobile device	10
		Body	11
Battery compartment	12
		Battery modules	13、20、30
Shell	130、200、300
		Upper cover	131
Surface	1310、201、301
		Connecting hole	1311
Slide opening	1312
		Lower cover	132
Accommodating groove	1320
		Protecgulum	133
Through hole	1330
		Locking device	140、210、310
Sliding part	1400
		Anti-skidding projection	1401、2104、3101
Connecting rod	1402
		Sliding beam	1403
Fastener	1404、2101、3103
		Adapting rod	1405
Snap fit	1406、2103
		Fixing hole	1407
Elastic component	1408、2105、3104
		Power set	15
Rotor	16
		Button	2100、3100
Switching piece	2102
		Linking arm	3102

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

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.

Refer to Fig. 3, 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 upper cover 131.

See also Fig. 4 and Fig. 5, described upper cover 131 and lower cover 132 fasten rear inside and form accommodating groove 1320, for receiving battery (not shown).The surface 1310 of described upper cover 131 is provided with two connecting holes 1311 and multiple slide opening 1312, and described protecgulum 133 is provided with through hole 1330.In the present embodiment, described slide opening 1312 is the elongated hole extended along predetermined direction, and quantity is two, and described predetermined direction is surperficial 1310 parallel with described, and vertical with the plug orientation of described battery modules 13.

Described locking device 140 comprises sliding part 1400, sliding beam 1403 and elastic component 1408.The size of described sliding part 1400 is less than the size of described through hole 1330, and described sliding part 1400 can be moved along described predetermined direction in described through hole 1330.In the present embodiment, the side deviating from described sliding beam 1403 of described sliding part 1400 is provided with multiple anti-skidding protruding 1401, to increase the frictional force between user's finger and described sliding part 1400.Described sliding part 1400 has multiple connecting rod 1402, and the quantity of described connecting rod 1402 is identical with the quantity of described slide opening 1312, and position one_to_one corresponding.In the present embodiment, the quantity of described connecting rod 1402 is two.

Described sliding beam 1403 is strip, and described predetermined direction is parallel with the length direction of described sliding beam 1403.Described sliding beam 1403 two ends form fastener 1404 to identical direction vertical protrusion, and described fastener 1404 comprises the adapting rod 1405 vertical with described sliding beam 1403, and the snap fit 1406 vertical and parallel with described predetermined direction with described adapting rod 1405.Distance between two described fasteners 1404 is identical with the distance between two described connecting holes 1311, and described adapting rod 1405 can move along described predetermined direction in described connecting hole 1311.In the present embodiment, described snap fit 1406 end has the inclined-plane tilted relative to described predetermined direction.Described sliding beam 1403 offers multiple fixing hole 1407, and the quantity of described fixing hole 1407 is identical with the quantity of described connecting rod 1402, and position one_to_one corresponding, the diameter of described fixing hole 1407 is also identical with the diameter of described connecting rod 1402.In the present embodiment, the quantity of described fixing hole 1407 is two.

See also Fig. 6 and Fig. 7, after described battery modules 13 has been assembled, it is inner that described sliding beam 1403 is placed in described upper cover 131, and two described fasteners 1404 are each passed through described two connecting holes 1311, and are exposed to described upper cover 131.Described connecting rod 1402 one end through described slide opening 1312 being fixed in described fixing hole 1407, make described sliding beam 1403 can along with the movement of described sliding part 1400 synchronizing moving.Described sliding beam 1403 is fixed in described elastic component 1408 one end, it is inner that the other end is fixed on described upper cover 131, described sliding beam 1403 and described fastener 1404 only had not having External Force Acting during the resilient force of described elastic component 1408 and is in the lock state.Under described lock-out state, described fastener 1404 is arranged in described connecting hole 1311 one end identical with the elastic force direction of described elastic component 1408 to described sliding beam 1403, and described fastener 1404 is held with described battery compartment 12.

When external force puts on described sliding part 1400, when described sliding part 1400 is moved to described predetermined direction in described through hole 1330, described sliding beam 1403 is followed described sliding part 1400 and is moved, and drives described fastener 1404 synchronizing moving, makes described fastener 1404 switch to released state.Under described released state, described fastener 1404 is arranged in described connecting hole 1311 one end contrary with the elastic force direction of described elastic component 1408 to described sliding beam 1403, to remove holding of described fastener 1404 and described battery compartment 12.

After external force removes, described fastener 1104 returns to described lock-out state under the restoring force effect of described elastic component 1108.

Be appreciated that, in other implementations, described locking device 140 also can be installed on described lower cover 132, even, described locking device 140 also can be installed on described protecgulum 133, as long as described lower cover 132 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 comprises shell 200 and is installed on the locking device 210 on the surface 201 of described shell 200.

Described locking device 210 comprises button 2100 and elastic component 2105, and described button 2100 one end stretches out and forms fastener 2101.Described fastener 2101 comprises the switching piece 2102 and the snap fit 2103 vertical and parallel with predetermined direction with described switching piece 2102 that extend from described button 2100, described predetermined direction is surperficial 201 vertical with described, and vertical with the plug orientation of described battery modules 20.In the present embodiment, the upper surface of described button 2100 is provided with multiple anti-skidding protruding 2104, and to increase the frictional force between user's finger and described button 2100, described snap fit 2103 end is inclined-plane.Described button 2100 is fixed in described elastic component 2105 one end, and the other end is fixed on described surperficial 201, described button 2100 and fastener 2101 is only had not having External Force Acting during the resilient force of described elastic component 2105 and is in the lock state.Under described lock-out state, described fastener 2101 is comparatively large with the distance of described shell 200, and described fastener 2101 is held with described battery compartment 12.

When external force puts on described button 2100, when described button 2100 is moved along described predetermined direction direction, described elastic component 2105 is compressed, and makes described fastener 2101 switch to released state.Under described released state, the distance of described fastener 2101 and described shell 200 under described fastener 2101 and the distance of described shell are less than described lock-out state, to remove holding of described fastener 2101 and described battery compartment 12.

After external force removes, described fastener 2101 returns to lock-out state under the restoring force of described elastic component 2105 is used.

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 comprises shell 300 and is installed on the locking device 310 on the surface 301 of described shell 300.

Described locking device 310 comprises button 3100, linking arm 3102 and elastic component 3104.In the present embodiment, the upper surface of described button 3100 is provided with multiple anti-skidding protruding 3101, to increase the frictional force between user's finger and described button 3100.Described linking arm 3102 is " L " shape, quantity is two, two described linking arms 3102 are individually fixed in the two ends of described button 3100, " U " type that formed structure, the free end of each described linking arm 3102 has fastener 3103, and two described fasteners 3103 lay respectively at the relative both sides of described shell 300.Described fastener 3103 is vertical and vertical with predetermined direction with described linking arm 3102, and described predetermined direction is surperficial 301 vertical and vertical with the plug orientation of described battery modules 30 with described.In the present embodiment, the end of described fastener 3103 is inclined-plane.

Described elastic component 3104 two ends are individually fixed on described button 3100 and described surperficial 301, described fastener 3103 is only had not having External Force Acting during the resilient force of described elastic component 3104 and is in the lock state.Under described lock-out state, described fastener 3103 is less with surface 301 distance, and described fastener 3103 is held with described battery compartment 12.

When external force puts on described button 3100, when described button 3100 is moved along described predetermined direction, described elastic component 3104 is compressed, and makes described fastener 3103 switch to released state.Under described released state, described fastener 3103 and the described distance of surperficial 301 under described fastener 3103 and the described distance of surperficial 301 are greater than described lock-out state, to remove holding of described fastener 3103 and described battery compartment 12.

After external force removes, described fastener 3103 returns to lock-out state under the restoring force of described elastic component 3104 is used.

Above-mentioned mobile device and battery modules thereof, described battery modules has relative to shell slidably fastener, by the described fastener that slides along predetermined direction, make holding of the battery compartment of the releasing of described fastener and described mobile device, to extract described 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 (21)

1. a battery modules, is characterized in that, comprising:

Shell;

Locking device, is arranged on the surface of described shell, and for described battery modules is locked in power consumption equipment, described locking device comprises the fastener stretched out at least partly outside described shell, and described fastener relative to described shell along predetermined direction slidably;

Wherein, when described battery modules is connected with described power consumption equipment, described fastener and described power consumption equipment hold mutually, to be locked on described power consumption equipment by described battery modules, described fastener can remove holding between described fastener and described power consumption equipment when described predetermined direction slides.

2. 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 fastener, and described fastener can be automatically reset after described predetermined direction slides;

And/or the snap fit that described fastener comprises adapting rod and is connected with described adapting rod, described snap fit is vertical with described adapting rod and parallel with described predetermined direction.

3. battery modules as claimed in claim 2, is characterized in that: described locking device also comprises the sliding part that described fastener can be driven to slide, by the described sliding part that slides, makes described fastener engage with described power consumption equipment or be separated;

And/or described sliding part is provided with multiple anti-skidding projection.

4. battery modules as claimed in claim 3, it is characterized in that: described locking device also comprises sliding beam, described sliding part is fixedly connected with described sliding beam by connecting rod, and described fastener is positioned at the end of described sliding beam.

5. battery modules as claimed in claim 4, it is characterized in that: described sliding beam is positioned at described enclosure, described shell is provided with the slide opening corresponding with described connecting rod, and described connecting rod is connected with described sliding beam through described slide opening.

6. battery modules as claimed in claim 3, is characterized in that: described predetermined direction is parallel to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

7. battery modules as claimed in claim 1, it is characterized in that: described locking device comprises button, described button one end is provided with described fastener, by pressing described button, makes described fastener engage with described power consumption equipment or be separated;

And/or described button is provided with multiple anti-skidding projection.

8. battery modules as claimed in claim 7, it is characterized in that: the snap fit that described fastener comprises switching piece and is connected with described switching piece, described snap fit is vertical with described switching piece and parallel with described predetermined direction;

And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

9. battery modules as claimed in claim 1, it is characterized in that: the linking arm that described locking device comprises button and is connected with described button, described fastener is positioned at the free end of described linking arm, and described fastener is vertical with described linking arm and vertical with described predetermined direction;

And/or described button is provided with multiple anti-skidding projection.

10. battery modules as claimed in claim 9, it is characterized in that: the quantity of described linking arm is two, two described linking arms are connected with the two ends of described button respectively, form U-shaped structure, the quantity of described fastener is two, two described fasteners lay respectively at the free end of two described linking arms, and two described fasteners lay respectively at the relative both sides of described shell;

And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

11. 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 the surface of described shell, and for described battery modules is locked in described battery compartment, described locking device comprises the fastener stretched out at least partly outside described shell, and described fastener relative to described shell along predetermined direction slidably;

Wherein, when described battery modules inserts described battery compartment, described fastener and described battery compartment hold mutually, and so that described battery modules is locked in described battery compartment, described fastener can remove holding between described fastener and described battery compartment when described predetermined direction slides.

12. mobile devices as claimed in claim 11, is characterized in that: described mobile device is unmanned vehicle, hand-held The Cloud Terrace or remote control battlebus.

13. mobile devices as claimed in claim 11, is characterized in that: described locking device comprises elastic component, described elastic component is used for providing an elastic-restoring force to described fastener, and described fastener can be automatically reset after described predetermined direction slides;

And/or the snap fit that described fastener comprises adapting rod and is connected with described adapting rod, described snap fit is vertical with described adapting rod and parallel with described predetermined direction.

14. mobile devices as claimed in claim 13, is characterized in that: described locking device also comprises the sliding part that described fastener can be driven to slide, and by the described sliding part that slides, make described fastener engage with described battery compartment or be separated;

And/or described sliding part is provided with multiple anti-skidding projection.

15. mobile devices as claimed in claim 14, it is characterized in that: described locking device also comprises sliding beam, described sliding part is fixedly connected with described sliding beam by connecting rod, and described fastener is positioned at the end of described sliding beam.

16. mobile devices as claimed in claim 15, it is characterized in that: described sliding beam is positioned at described enclosure, described shell is provided with the slide opening corresponding with described connecting rod, and described connecting rod is connected with described sliding beam through described slide opening.

17. mobile devices as claimed in claim 14, is characterized in that: described predetermined direction is parallel to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

18. mobile devices as claimed in claim 11, it is characterized in that: described locking device comprises button, described button one end is provided with described fastener, by pressing described button, makes described fastener engage with described battery compartment or be separated;

And/or described button is provided with multiple anti-skidding projection.

19. mobile devices as claimed in claim 18, it is characterized in that: the snap fit that described fastener comprises switching piece and is connected with described switching piece, described snap fit is vertical with described switching piece and vertical with described predetermined direction;

And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.

20. mobile devices as claimed in claim 11, it is characterized in that: the linking arm that described locking device comprises button and is connected with described button, described fastener is positioned at the free end of described linking arm, and described fastener is vertical with described linking arm and vertical with described predetermined direction;

And/or described button is provided with multiple anti-skidding projection.

21. mobile devices as claimed in claim 20, it is characterized in that: the quantity of described linking arm is two, two described linking arms are connected with the two ends of described button respectively, form U-shaped structure, the quantity of described fastener is two, two described fasteners lay respectively at the free end of two described linking arms, and two described fasteners lay respectively at the relative both sides of described shell;

And/or, described predetermined direction perpendicular to the surface of described shell, and perpendicular to the plug orientation of described battery modules.