CN201349039Y - Battery charger structure - Google Patents

Abstract

The utility model discloses a battery charger structure. One end of a battery is equipped with a plurality of clamping grooves. The battery charger structure structurally comprises a casing, an electromagnet, a bottom plate, a plurality of charger pins and a shifting block, wherein a holding space is arranged in the casing, the electromagnet is arranged inside on end of the casing, one end of the electromagnet is equipped with an extensible iron core, the bottom plate is arranged in the holding space of the casing, two sides of the bottom plate are respectively equipped with an elastic body projecting towards the direction of the casing, one end of the bottom plate far away from the electromagnet is equipped with one or a plurality of elastic abutting portions, the charger pins are arranged at one end of the bottom plate approaching the electromagnet, one side of the shifting block is fixed at one end of the iron core, and the other side of the shifting block is equipped with a plurality of clamping points corresponding to the clamping grooves. By utilizing the structure, after being fully charged, the battery can be separated with the charger pins through the action of the structure, thereby not only bringing convenience for users to know that the battery is fully charged, but also preventing the battery from being charged continuously, prolonging the service life of the battery and reducing waste of electric energy.

Description

The battery charger structure

[technical field]

The utility model is meant a kind of battery charger structure of automatic outage especially about a kind of battery charger structure.

[background technology]

Along with portable type electronic product more and more widely be applied to daily life, its problem of using charger to charge to battery also becomes the problem of people's research.

At present traditional battery charger is put into charging with battery, can only judge whether to be full of according to indicator light, even and if be full of, battery still continues little state that fills, and influences the life-span of battery, and causes the waste to electric power energy.

In view of this, be necessary to provide a kind of battery charger structure in fact, utilize this battery charger structure, can battery be separated with the charger pin by the effect of structure, make things convenient for the user to know that battery is full of on the one hand, avoid battery to continue on the other hand and fill, increase the life-span of battery, reduce the waste of electric power energy.

[summary of the invention]

Therefore, the purpose of this utility model is to provide a kind of battery charger structure, utilize this battery charger structure, can battery be separated with the charger pin by the effect of structure, make things convenient for the user to know that battery is full of on the one hand, avoid battery to continue on the other hand and fill, increase the life-span of battery, reduce the waste of electric power energy.

For reaching above-mentioned purpose, battery charger structure of the present utility model, an end of this battery is provided with several draw-in grooves, and the bottom of this battery is provided with several battery pins near an above-mentioned end, and this battery charger structure comprises:

One housing is provided with one and is installed with the space in it;

One electromagnet, it is located in above-mentioned housing one end, and this electromagnet one end is provided with the retractility iron core;

One base plate, its be located at above-mentioned housing this be installed with in the space, the both sides of this base plate are respectively equipped with an elastomer that direction is protruded outside above-mentioned housing, this base plate is provided with one or several away from above-mentioned electromagnet one end and flexibly supports portion;

Several charger pins, it is located at above-mentioned base plate near above-mentioned electromagnet one end;

One slide block, one side are fixed in above-mentioned iron core one end, and this slide block opposite side is provided with several stuck points corresponding with above-mentioned several draw-in grooves.

Compared to prior art, utilize this battery charger structure of the present utility model, can be when battery be full of electricity, effect by structure separates battery with the charger pin, make things convenient for the user to know that battery is full of on the one hand, avoid battery to continue on the other hand and fill, increase the life-span of battery, reduce the waste of electric power energy.

For the purpose of this utility model, structural feature and function thereof are had further understanding, conjunction with figs. is described in detail as follows now:

[description of drawings]

Fig. 1 illustrates the first user mode structure chart of this battery charger structure one preferred embodiment of the present utility model.

Fig. 2 illustrates decomposition texture first view of this battery charger structure one preferred embodiment of the present utility model.

Fig. 3 illustrates decomposition texture second view of this battery charger structure one preferred embodiment of the present utility model.

Fig. 4 illustrates second user mode knot side cut-away view of this battery charger structure one preferred embodiment of the present utility model.

[embodiment]

See also Fig. 1, Fig. 2, Fig. 3, it illustrates decomposition texture first view of the first user mode structure chart of this battery charger structure one preferred embodiment of the present utility model, this battery charger structure one preferred embodiment of the present utility model, decomposition texture second view of this battery charger structure one preferred embodiment of the present utility model respectively.

Battery charger structure of the present utility model, in present embodiment, an end of this battery 1 is provided with two draw-in grooves 10, and the bottom of this battery 10 is provided with four battery pins 11 near an above-mentioned end, and this battery charger structure comprises:

One housing 2 is provided with one and is installed with space 20 in it;

One electromagnet 3, it is located in above-mentioned housing 2 one ends, and these electromagnet 3 one ends are provided with retractility iron core 30;

One base plate 4, its be located at above-mentioned housing 2 this be installed with in the space 20, the both sides of this base plate 4 are respectively equipped with an elastomer 40 that direction is protruded outside above-mentioned housing 2, this elastomer 40 is a shell fragment herein, can certainly be spring, this base plate 4 is provided with one or several away from above-mentioned electromagnet 3 one ends and flexibly supports portion 41, and this flexibly supports two shell fragments of portion 41 for symmetry herein, can certainly be spring;

Four charger pins 5, it is located at above-mentioned base plate 4 near above-mentioned electromagnet 3 one ends;

One slide block 6, one side are fixed in above-mentioned iron core 30 1 ends, and these slide block 6 opposite sides are provided with two stuck points 60 corresponding with above-mentioned two draw-in grooves 10.

In present embodiment, also be provided with a spring 31 on the above-mentioned electromagnet 3, an end of this spring 31 is fixed on the above-mentioned iron core 30, and this spring 31 shrinks after these electromagnet 3 energisings, and then can drive above-mentioned iron core 30 contractions.

Utilize battery charger structure of the present utility model, in charging, battery 1 is pressed into above-mentioned being installed with in the space 20, deformation all takes place with the above-mentioned portion 41 that flexibly supports in above-mentioned elastomer 40, and above-mentioned two stuck points 60 are sticked in respectively in above-mentioned two draw-in grooves 10, respectively this battery pin 11 electrically contacts with corresponding respectively this charger pin 5 respectively, thereby reaches the purpose of fixing this battery 1 and charging.

Please consult Fig. 2, Fig. 4 more jointly, Fig. 4 illustrates second user mode knot side cut-away view of this battery charger structure one preferred embodiment of the present utility model.

When battery is full of electricity, the iron core 30 of above-mentioned electromagnet 3 is driven by the contraction of spring 31 to be shunk, thereby driving above-mentioned slide block 6 moves, after above-mentioned two stuck points 60 broke away from above-mentioned two draw-in grooves 10 respectively, this battery 1 was upspring by above-mentioned elastomer 40, and respectively this battery pin 11 disconnects with corresponding respectively this charger pin 5 respectively and connecting, thereby make things convenient for the user to know that battery 1 has been full of on the one hand, avoid battery 1 continuous filling on the other hand, increase the life-span of battery 1, reduce the waste of electric power energy.

Claims (8)

1, a kind of battery charger structure, an end of this battery is provided with several draw-in grooves, and the bottom of this battery is provided with several battery pins near an above-mentioned end, it is characterized in that this battery charger structure comprises:

One housing is provided with one and is installed with the space in it;

One electromagnet, it is located in above-mentioned housing one end, and this electromagnet one end is provided with the retractility iron core;

One base plate, its be located at above-mentioned housing this be installed with in the space, the both sides of this base plate are respectively equipped with an elastomer that direction is protruded outside above-mentioned housing, this base plate is provided with one or several away from above-mentioned electromagnet one end and flexibly supports portion;

Several charger pins, it is located at above-mentioned base plate near above-mentioned electromagnet one end;

One slide block, one side are fixed in above-mentioned iron core one end, and this slide block opposite side is provided with several stuck points corresponding with above-mentioned several draw-in grooves.

2, battery charger structure as claimed in claim 1 is characterized in that, above-mentioned elastomer is a shell fragment.

3, battery charger structure as claimed in claim 1 is characterized in that, above-mentioned elastomer is a spring.

4, battery charger structure as claimed in claim 1 is characterized in that, the above-mentioned portion of flexibly supporting is a shell fragment.

5, battery charger structure as claimed in claim 4 is characterized in that, the above-mentioned shell fragment portion of flexibly supporting is two, and symmetry is set up.

6, battery charger structure as claimed in claim 1 is characterized in that, the above-mentioned portion of flexibly supporting is a spring.

7, battery charger structure as claimed in claim 1 is characterized in that, above-mentioned draw-in groove is two, and above-mentioned stuck point is two corresponding with above-mentioned two draw-in grooves.

8, battery charger structure as claimed in claim 1 is characterized in that, also is provided with a spring on the above-mentioned electromagnet, and an end of this spring is fixed on the above-mentioned iron core.

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