CN202282620U - Charging device - Google Patents

Abstract

A charging device comprises at least one slot seat, a plurality of elastic conductive pieces, a plurality of convex columns and a plurality of limiting components. The slot seat is provided with a slot and a plurality of charging terminal ports, and each elastic conductive piece comprises an elastic piece and a charging terminal connected with the elastic piece. Each charging terminal extends from one of the charging terminal ports into the slot. The convex columns and the limiting assemblies are fixed on the groove seat, and each limiting assembly comprises a pair of limiting pieces. The convex columns penetrate through the elastic sheets respectively, and the elastic sheets are fixed between the limiting pieces.

Description

Charging device

Technical field

The utility model relates to a kind of charging device, and particularly relevant for a kind of charging device with elastic conduction spare (elastic electric conductor).

Background technology

Portable electronic devices now (portable electronic device); For example flat computer (tablet computer), mobile phone and Portable media player (Portable Media Player; PMP, for example MP3 player) etc., be electric energy to be provided mostly by rechargeable battery.When above-mentioned portable electronic devices was in the state of electric energy deficiency, the rechargeable battery in the portable electronic devices need obtain electric energy through charger.

Some charger generally includes groove seat and a pair of charging terminal (charging terminal).The groove seat has slot, and the charging terminal position is in slot, and can export electric energy and give rechargeable battery.Generally speaking, in above-mentioned this type charger, the two normally utilizes groove seat and charging terminal screws and is bonded to each other.Therefore, these charging terminals many screws of need arranging in pairs or groups could combine with the groove seat.

The utility model content

The utility model provides a kind of charging device, and its charging terminal is to utilize the alternate manner beyond the screws and combine with the groove seat.

The utility model proposes a kind of charging device, and it comprises at least one groove seat, a plurality of elastic conduction spare, many projections and a plurality of limit assembly.The groove seat has the outer bottom and the rim of the mouth, a plurality of charging end of a slot, a side surface around slot, a connection side surface, and wherein these rims of the mouth, charging end are exposed to side surface.Each elastic conduction spare comprises that a shell fragment and connects the charging terminal of shell fragment.Each charging terminal extends in the slot from rim of the mouth, a charging end wherein.These projections are fixed on the outer bottom, and run through these shell fragments respectively.These limit assemblies are fixed on the outer bottom.Each limit assembly comprises a pair of locating part, and wherein each sheet shell fragment is fixed between these locating parts.

This groove seat is configured in wherein between two elastic conduction spares.

Respectively this projection position is therein between two limit assemblies.

Respectively this limit assembly also comprises pedestal, and said base configuration is on this outer bottom, and wherein two locating parts are configured in respectively on this pedestal.

Respectively this locating part comprises: block; And connector, connect this block, and the position is between this block and this outer bottom, wherein respectively this shell fragment position between this block and this outer bottom, and between adjacent two connectors.

Respectively this shell fragment comprises: contact-segment has contact jaw; Bending section has first end, the second end and position first bend between this first end and this second end, and wherein this second end connects this charging terminal; And the assembling section, be connected between this contact-segment and this first end, and be fixed in one of them limit assembly, wherein this charging terminal extends towards this contact jaw from this second end.

Respectively this contact-segment has the fixing hole of position between this assembling section and this contact jaw, and respectively this projection is inserted in one of them fixing hole.

Respectively the width of this bending section is greater than width that respectively should assembling section so that respectively this first end against one of them limit assembly.

Respectively this assembling section comprises: first lamellar body connects this contact-segment; And second lamellar body, be connected between this first lamellar body and this first end, wherein respectively the width of this second lamellar body is unequal with the width of this first lamellar body respectively.

Respectively the width of this second lamellar body is greater than the width of this first lamellar body respectively.

Respectively this second lamellar body has the guiding end that connects this first lamellar body, and width that should the guiding end from this first lamellar body towards this bending section and cumulative.

Respectively this first lamellar body has second bend and curved end, and this contact-segment connects this curved end, and extends towards the direction away from this bending section from this curved end, and through this second bend, this first lamellar body is crooked towards this groove seat.

Respectively this contact-segment has the turning point, and this turnover position is between this contact jaw and this assembling section, so that this contact jaw perk.

This charging device also comprises a plurality of guide groove seats, and said guide groove seat is configured on this outer bottom, and wherein respectively this guide groove seat comprises two wall bodies respect to one another, and this shell fragment position therein between the said wall body of a guide groove seat respectively.

Respectively this guide groove seat is therein between two projections.

This charging device also comprises plate, and this plate connects this groove seat, and has the plane, and wherein this position, plane is at the opposite position of this outer bottom, and exposes this slot.

The quantity of this groove seat is a plurality of, and said groove seat connects this plate, and this plane exposes said slot.

Said groove seat forms a line.

This charging device also comprises circuit board, and this circuit board is fixed on this outer bottom, and electrically contacts said shell fragment.

The beneficial effect of the utility model is: utilize above-mentioned projection and limit assembly, the charging terminal of elastic conduction spare can utilize the alternate manner beyond the screws to combine with the groove seat.

Description of drawings

For letting the above-mentioned feature and advantage of the utility model can be more obviously understandable, hereinafter is special lifts embodiment, and cooperates appended graphicly, elaborate as follows, wherein:

Figure 1A is the schematic perspective view of the charging device of the utility model one embodiment.

Figure 1B is the schematic perspective view of charging device after upset among Figure 1A.

Fig. 1 C is the schematic perspective view of the slot among the partial enlarged drawing 1B.

Fig. 2 is the schematic perspective view of elasticity electric-conductor among Figure 1A.

Fig. 3 A is groove seat and the schematic perspective view of elastic conduction spare among the partial enlarged drawing 1A.

Fig. 3 B is the schematic perspective view of groove seat and elastic conduction spare among the separation graph 3A.

Fig. 4 is the schematic perspective view of groove seat and elastic conduction spare among the assembly drawing 3B.

Embodiment

Figure 1A is the schematic perspective view of the charging device of the utility model one embodiment, and Figure 1B is the schematic perspective view of charging device after upset among Figure 1A, and wherein Figure 1B draws the charging device among Figure 1A to form after reverses direction R1 upset.See also Figure 1A and Figure 1B, charging device 100 comprises a plurality of elastic conduction spares 200 and a plurality of groove seat 110, and wherein groove seat 110 can combine with elastic conduction spare 200, and each groove seat 110 is configured in wherein between two elastic conduction spares 200, shown in Figure 1A.

Each groove seat 110 has a slot 112, a side surface 114 and an outer bottom 116.In each groove seat 110, side surface 114 can center on slot 112, and connects outer bottom 116, and outer bottom 116 can an opposite position at slot 112 bottom surface 112b.Therefore, bottom surface 112b can the position between outer bottom 116 and slot 112 notches (sign), and slot 112 is not to run through slot 112 and form, promptly the degree of depth of slot 112 is less than the thickness of groove seat 110.

Each slot 112 can be ccontaining needs the portable electronic devices of charging, and it for example is flat computer, mobile phone, digital camera, digital camera or Portable media player etc.Because charging device 100 comprises a plurality of groove seats 110, so charging device 100 can ccontaining a plurality of portable electronic devices, simultaneously a plurality of portable electronic devices are charged.In addition, these groove seats 110 are all electrical insulator, and can be made by electrical insulating materials such as plastics or potteries.So groove seat 110 can be electrically insulated with elastic conduction spare 200.

In the present embodiment, charging device 100 can also comprise a plate 120, and plate 120 can connect these groove seats 110, and wherein plate 120 can be one-body molded with these groove seats 110.For example, plate 120 and these groove seats 110 can be to utilize ejection formation and form.Plate 120 has a plane 122,122 opposite positions of its midplane at outer bottom 116, and expose these slots 112.In addition, these groove seats 110 can form a line, so that these slots 112 are arranged side by side each other, shown in Figure 1B.

What must explain is; Though the charging device 100 shown in Figure 1A and Figure 1B comprises a plate 120 and a plurality of groove seats 110; But in other embodiments, charging device 100 can not comprise any plate 120, and the quantity of the included groove seat 110 of charging device 100 can be merely one; So charging device 100 can once only charge to a portable electronic devices, and simultaneously a plurality of portable electronic devices is not charged.Therefore, groove seat 110 quantity among Figure 1A and Figure 1B and plate 120 are merely and illustrate, and non-limiting the utility model.

Charging device 100 also comprises many projections 130 and a plurality of limit assembly 140, and wherein these projections 130 all are fixed on the outer bottom 116 with these limit assemblies 140, and can link slot seat 110.For example; Projection 130, limit assembly 140 can be one-body molded with groove seat 110 threes; So projection 130 can be by the made electrical insulator of electrical insulating materials such as plastics or pottery with limit assembly 140, and projection 130, limit assembly 140 and groove seat 110 threes can utilize ejection formation to form.

Each elastic conduction spare 200 comprises a shell fragment 210; And projection 130 all can be fixed on shell fragment 210 on outer bottom 116 and the side surface 114 with limit assembly 140; Wherein these projections 130 run through these shell fragments 210 respectively, and each shell fragment 210 passes one of them limit assembly 140.In same groove seat 110, each root projection 130 can be situated in wherein between two limit assemblies 140.

Charging device 100 can also comprise a plurality of guide groove seats 150, and wherein these guide groove seats 150 are configured on the outer bottom 116 of these groove seats 110.Each guide groove seat 150 can comprise two wall bodies 152 respect to one another, and 210 on each sheet shell fragment is therein between these wall bodies 152 of a guide groove seat 150.So, these guide groove seats 150 can limit to shell fragment 210 scope movably on outer bottom 116, are fixed on the outer bottom 116 to help shell fragment 210.In addition, each guide groove seat 150 can be situated in wherein between two projections 130.

In addition, charging device 100 can also comprise a circuit board 160.Circuit board 160 is fixed on the outer bottom 116 of these groove seats 110, and electrically contacts these shell fragments 210.When circuit board 160 electrically connected an external power source (civil power that for example socket provided), electric energy can be passed to these shell fragments 210 via circuit board 160 from external power source.In addition, when circuit board 160 is fixed on 116 last times of outer bottom, circuit board 160 more can be oppressed shell fragment 210, is fixed on the outer bottom 116 to help shell fragment 210.

Fig. 1 C is the schematic perspective view of the slot among the partial enlarged drawing 1B.See also Figure 1A, Figure 1B and Fig. 1 C, each elastic conduction spare 200 comprises that also one connects the charging terminal 220 of shell fragment 210, and each groove seat 110 has more rim of the mouth, a plurality of charging end 118.In same groove seat 110, when groove seat 110 did not combine with elastic conduction spare 200, rim of the mouth, charging end 118 can be exposed in side surface 114 and the slot 112, and each charging terminal 220 can extend in the slot 112 from one of them rim of the mouth, charging end 118.Therefore, these rims of the mouth, charging end 118 are for running through the opening that groove seat 110 forms,

Hold above-mentionedly, charging terminal 220 can electrically connect the electrode of rechargeable battery, charges to help rechargeable battery.When portable electronic devices or rechargeable battery were placed in the slot 112, portable electronic devices or rechargeable battery can contact charging terminals 220.At this moment, when external power source transmitted electric energy to these shell fragments 210, shell fragment 210 can be given rechargeable battery so that charging terminal 220 can be exported electric energy, to charge with electrical energy transfer to charging terminal 220.So, rechargeable battery is able to obtain electric energy from charging terminal 220.

Fig. 2 is the schematic perspective view of elasticity electric-conductor among Figure 1A, and Fig. 3 A is groove seat and the schematic perspective view of elastic conduction spare among the partial enlarged drawing 1A.See also Fig. 2 and Fig. 3 A; Each sheet shell fragment 210 comprises a contact-segment 212, an assembling section 214 and one bending section 216; Wherein assembling section 214 is connected between contact-segment 212 and the bending section 216, and bending section 216 connects charging terminal 220, and has one first bend B61; To such an extent as to the lamellar body that is shaped as bending of bending section 216, it for example is a L matrix body.

Assembling section 214, contact-segment 212 and bending section 216 threes with a slice shell fragment 210 can be one-body molded; For example assembling section 214, contact-segment 212 are formed via machining by a slice sheet metal with bending section 216 threes, and wherein this machining comprises punching press (stamping) and cutting.

In the present embodiment, each contact-segment 212 can be situated between these wall bodies 152 of one of them guide groove seat 150, and has a contact jaw 212a.After circuit board 160 (seeing also Figure 1A) was fixed on the outer bottom 116, contact jaw 212a is contact circuit plate 160 electrically, so that electric energy can be passed to charging terminal 220 with contact jaw 212a via circuit board 160.

Each contact-segment 212 can have a turning point 212b, and wherein 212b position in turning point is between contact jaw 212a and assembling section 214, so that contact jaw 212a perk.So, after circuit board 160 was fixed on the outer bottom 116, contact jaw 212a can be pushed down by circuit board 160, so that the positively electrical contact circuit plate 160 of contact jaw 212a, thereby reduce the situation that poor electrical contact takes place.

In addition, each contact-segment 212 can have a fixing hole 212c, and wherein fixing hole 212c position is between assembling section 214 and contact jaw 212a.In the embodiment shown in Figure 2, contact jaw 212a can an opposite position at fixing hole 212c.That is to say that contact jaw 212a and fixing hole 212c can distinguish the relative two end places of position in contact-segment 212.Each fixing hole 212c can correspond to wherein projection 130, so that each root projection 130 can be inserted in one of them fixing hole 212c.So, these projections 130 are able to run through respectively these shell fragments 210.

Width of each assembling section 214 can be inhomogeneous, and shape of each assembling section 214 can be crooked lamellar body, and it for example is a L matrix body.In detail, each assembling section 214 can comprise one first lamellar body 214a and one second lamellar body 214b, and wherein the first lamellar body 214a connects contact-segment 212, and the second lamellar body 214b is connected between the first lamellar body 214a and the bending section 216.

Hold above-mentionedly, the width of the width of each sheet second lamellar body 214b and each sheet first lamellar body 214a is unequal, to such an extent as to the width of assembling section 214 is inhomogeneous.In the embodiment shown in Figure 2, the width W 2 of each sheet second lamellar body 214b can be greater than the width W 1 of each sheet first lamellar body 214a, and from outward appearance, the edge of the second lamellar body 214b protrudes from the edge of the first lamellar body 214a.

In addition, each sheet second lamellar body 214b can have the guiding end L1 of a connection first lamellar body 214a, wherein guides the width of end L1 also inhomogeneous.In detail; From Fig. 2; The part guiding end L1 of the contiguous first lamellar body 214a; Its width is equivalent to the width W 1 of the first lamellar body 214a, and the width of guiding end L1 can for example guide the width of end L1 cumulative to width W 2 from width W1 from the first lamellar body 214a towards bending section 216 and cumulative.So the width of guiding end L1 is also inhomogeneous.

Each sheet first lamellar body 214a has one second a bend B41 and a curved end E41, and the second bend B41 position is between the curved end E41 and the second lamellar body 214b.Through the second bend B41, the first lamellar body 214a is able to down crooked, and towards 110 bendings of groove seat, so that the shape of assembling section 214 can be crooked lamellar body, for example L matrix body.Contact-segment 212 connects curved end E41, and extends towards the direction away from bending section 216 from curved end E41.

Bending section 216 has more a first end E61 and a second end E62, and the first bend B61 position is between first end E61 and the second end E62.In same bending section 216, the second lamellar body 214b of the first end E61 section of assembling 214, and the second end E62 connects charging terminal 220, wherein charging terminal 220 is to extend towards contact jaw 212a from the second end E62.

In elastic conduction spare shown in Figure 2 200, charging terminal 220 can the position below assembling section 214, and the width W 3 of each bending section 216 can be greater than the width of each assembling section 214, promptly width W 1 and width W 2 the two all less than width W 3.Therefore, from outward appearance, bending section 216 can protrude from the edge of assembling section 214 at the edge at first end E61 place, as shown in Figure 2.

Fig. 3 B is the schematic perspective view of groove seat and elastic conduction spare among the separation graph 3A.See also Fig. 3 A and Fig. 3 B; Each limit assembly 140 comprises a pair of locating part 142; And each sheet shell fragment 210 is fixed therein between these locating parts 142 of a limit assembly 140; To such an extent as to each sheet shell fragment 210 can pass one of them limit assembly 140, wherein each assembling section 214 can be fixed in one of them limit assembly 140.

Each locating part 142 comprises a block 142a and a connection piece 142b, and wherein connector 142b connects block 142a, and the position is between block 142a and outer bottom 116.At groove seat 110 with after elastic conduction spare 200 combines, the second lamellar body 214b of each sheet shell fragment 210 can the position between block 142a and outer bottom 116, and between adjacent two connector 142b, shown in Fig. 3 A.

Hence one can see that; At groove seat 110 with after elastic conduction spare 200 combines; These blocks 142a meeting position is above the second lamellar body 214b of assembling section 214; To such an extent as to block 142a can limit to the scope that the second lamellar body 214b moves up and down, make that shell fragment 210 is difficult for breaking away from from the outer bottom 116 of groove seat 110, thereby can help shell fragment 210 to be fixed on the outer bottom 116.

In addition, each limit assembly 140 can also comprise a pedestal 144 (seeing also Fig. 3 A), and pedestal 144 is configured on the outer bottom 116.So pedestal 144 can protrude from outer bottom 116.Wherein two locating parts 142 are configured on each pedestal 144; And pedestal 144 can connect the connector 142b of these two locating parts 142; Wherein connector 142b position is between block 142a and pedestal 144, and the second lamellar body 214b of each sheet shell fragment 210 is configurable between block 142a and pedestal 144.Therefore, block 142a still can limit to the scope that the second lamellar body 214b moves up and down, and is fixed on the outer bottom 116 to help shell fragment 210.

In addition; Because the first lamellar body 214a has the second bend B41 and curved end E41; To such an extent as to the part first lamellar body 214a between the second bend B41 and the second lamellar body 214b can be configured on the whole pedestal 144 above, and the first lamellar body 214a of other part can down extend to contact-segment 212.So, contact-segment 212 is able to contact outer bottom 116, and connects the first lamellar body 214a.

In addition, because the width W 3 of bending section 216 can be greater than the width (for example width W 1 or W2) of assembling section 214, so bending section 216 can protrude from the edge of assembling section 214 at the edge of first end E61.So, the first end E61 of each bending section 216 can move thereby stop shell fragment 210 to continue past limit assembly 140 against the connector 142b of one of them limit assembly 140.

Fig. 4 is the schematic perspective view of groove seat and elastic conduction spare among the assembly drawing 3B.See also Fig. 3 B and Fig. 4, in the process of assembling grove seat 110 and elastic conduction spare 200, at first, can elastic conduction spare 200 be placed on the outer bottom 116 from top to down.At this moment, the first lamellar body 214a is configured between two locating parts 142 of limit assembly 140, and promptly the first lamellar body 214a is configured in the limit assembly 140, and the second lamellar body 214b is configured in outside the limit assembly 140.

Hold above-mentionedly, in same assembling section 214, have width smaller W1 (seeing also Fig. 2) compared to width W 2, the first lamellar body 214a of the second lamellar body 214b.Therefore, in the process of placing elastic conduction spare 200, these locating part 142 easy interference second lamellar body 214b, but be difficult for interfering the first lamellar body 214a, to such an extent as to the first lamellar body 214a directly is placed between two locating parts 142 of limit assembly 140 easily.So, the first lamellar body 214a is configured in the limit assembly 140, and the second lamellar body 214b is configured in outside the limit assembly 140.

After the first lamellar body 214a is configured in the limit assembly 140, then, move elastic conduction spare 200 along a direction D1, so that the second lamellar body 214b moves in the limit assembly 140, and charging terminal 220 is inserted in the rim of the mouth, charging end 118.Because the width W 2 of the second lamellar body 214b is greater than the width W 1 of the first lamellar body 214a, so block 142a can interfere the second lamellar body 214b, thereby limits to the scope that the second lamellar body 214b moves up and down.So, block 142a can make that shell fragment 210 is difficult for breaking away from from the outer bottom 116 of groove seat 110.

Secondly and since each fixing hole 212c can correspondence projection 130 wherein, therefore in the process that elastic conduction spare 200 moves along direction D1, fixing hole 212c can move towards projection 130, and projection 130 can be inserted in the fixing hole 212c.In case projection 130 is inserted in the fixing hole 212c, the first end E61 of bending section 216 can continue to move along direction D1 to stop shell fragment 210 against limit assembly 140.After fixing hole 212c ran through shell fragment 210, projection 130 can limit shell fragment 210 moving on outer bottom 116 at projection 130, was fixed on the outer bottom 116 to help shell fragment 210.

In addition, when elastic conduction spare 200 when direction D1 moves, contact-segment 212 can get in the guide groove seats 150, so that contact-segment 212 is limited in moving forward and backward between the two relative wall bodies 152 of guide groove seat 150.So; Guide groove seat 150 can not only limit to shell fragment 210 transportable scopes; And in the process of assembling grove seat 110 and elastic conduction spare 200, guide groove seat 150 can also be guided elastic conduction spare 200 and moved toward correct directions, thereby helps projection 130 can be inserted in the fixing hole 212c.

In sum, utilize projection to the running through and limit assembly fixing to shell fragment of shell fragment, the groove seat is able to combine with elastic conduction spare, so that the charging terminal of elastic conduction spare is able to utilize the alternate manner beyond the screws to combine with the groove seat.Compared to known technology, the charging device of the utility model can significantly reduce the demand of screw, and simplifies the assemble method of charging device, assembles required time and the manpower of charging device to reduce, thereby is beneficial to a large amount of productions.

The above is merely the embodiment of the utility model, and it is not in order to limit the scope of patent protection of the utility model.Anyly have the knack of alike operator, in spirit that does not break away from the utility model and scope, change of being done and the equivalence of retouching replacement are still in the claim protection range of the utility model.

Claims (19)

1. a charging device is characterized in that, this charging device comprises:

At least one groove seat has slot, around side surface, the outer bottom that connects this side surface and the rim of the mouth, a plurality of charging end of this slot, and rim of the mouth, wherein said charging end is exposed to this side surface;

A plurality of elastic conduction spares, this elastic conduction spare charging terminal of comprising shell fragment and connecting this shell fragment respectively, and respectively this charging terminal extends in this slot from one of them rim of the mouth, charging end;

Many projections are fixed on this outer bottom, and run through said shell fragment respectively; And

A plurality of limit assemblies are fixed on this outer bottom, and respectively this limit assembly comprises a pair of locating part, and wherein respectively this shell fragment is fixed between the said locating part.

2. charging device as claimed in claim 1 is characterized in that, this groove seat is configured in wherein between two elastic conduction spares.

3. charging device as claimed in claim 1 is characterized in that, respectively this projection position is therein between two limit assemblies.

4. charging device as claimed in claim 1 is characterized in that respectively this limit assembly also comprises pedestal, and said base configuration is on this outer bottom, and wherein two locating parts are configured in respectively on this pedestal.

5. charging device as claimed in claim 1 is characterized in that, respectively this locating part comprises:

Block; And

Connector connects this block, and the position is between this block and this outer bottom, wherein respectively this shell fragment position between this block and this outer bottom, and between adjacent two connectors.

6. charging device as claimed in claim 1 is characterized in that, respectively this shell fragment comprises:

Contact-segment has contact jaw;

Bending section has first end, the second end and position first bend between this first end and this second end, and wherein this second end connects this charging terminal; And

The assembling section is connected between this contact-segment and this first end, and is fixed in one of them limit assembly, and wherein this charging terminal extends towards this contact jaw from this second end.

7. charging device as claimed in claim 6 is characterized in that, respectively this contact-segment has the fixing hole of position between this assembling section and this contact jaw, and respectively this projection is inserted in one of them fixing hole.

8. charging device as claimed in claim 6 is characterized in that, respectively the width of this bending section is greater than width that respectively should assembling section so that respectively this first end against one of them limit assembly.

9. charging device as claimed in claim 6 is characterized in that, respectively this assembling section comprises:

First lamellar body connects this contact-segment; And

Second lamellar body is connected between this first lamellar body and this first end, and wherein respectively the width of this second lamellar body is unequal with the width of this first lamellar body respectively.

10. charging device as claimed in claim 9 is characterized in that, respectively the width of this second lamellar body is greater than the width of this first lamellar body respectively.

11. charging device as claimed in claim 9 is characterized in that, respectively this second lamellar body has the guiding end that connects this first lamellar body, and width that should the guiding end from this first lamellar body towards this bending section and cumulative.

12. charging device as claimed in claim 9; It is characterized in that; Respectively this first lamellar body has second bend and curved end, and this contact-segment connects this curved end, and extends towards the direction away from this bending section from this curved end; And through this second bend, this first lamellar body is crooked towards this groove seat.

13. charging device as claimed in claim 6 is characterized in that, respectively this contact-segment has the turning point, and this turnover position is between this contact jaw and this assembling section, so that this contact jaw perk.

14. charging device as claimed in claim 1; It is characterized in that this charging device also comprises a plurality of guide groove seats, said guide groove seat is configured on this outer bottom; Wherein respectively this guide groove seat comprises two wall bodies respect to one another, and this shell fragment position therein between the said wall body of a guide groove seat respectively.

15. charging device as claimed in claim 14 is characterized in that, respectively this guide groove seat is therein between two projections.

16. charging device as claimed in claim 1 is characterized in that, this charging device also comprises plate, and this plate connects this groove seat, and has the plane, and wherein this position, plane is at the opposite position of this outer bottom, and exposes this slot.

17. charging device as claimed in claim 16 is characterized in that, the quantity of this groove seat is a plurality of, and said groove seat connects this plate, and this plane exposes said slot.

18. charging device as claimed in claim 17 is characterized in that, said groove seat forms a line.

19. charging device as claimed in claim 1 is characterized in that, this charging device also comprises circuit board, and this circuit board is fixed on this outer bottom, and electrically contacts said shell fragment.

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