CN201117745Y - Charger - Google Patents

Abstract

The utility model relates to a charger which includes a charging part; wherein, the charging part is provided with a platform, a rolled-up stock and an elastic component; wherein, the platform is provided with two pieces of cylindrical pipes at the front end; the two pieces of cylindrical pipes at the front end of the platform are respectively provided with a conductive wire body by winding; wherein, a section of the conductive wire body is stretched out at a proper height to form a conductive terminal; while the battery is arranged on the platform according to a proper position that the charging electrode can be contacted with the conductive terminal to adjust the displacement and utilizes the rolled-up stock to roll and locate the battery, then respectively adjust the conductive terminal extending out from the cylindrical pipe to contact the charging battery of the battery; thereby forming a charging loop, thus leading the charger to be suitable for the batteries of various specifications. The charger of the utility model has the advantages of simple structure, saving material, reducing the manufacture cost as well as more practical and convenient use.

Description

Charger

Technical field

The utility model relates to a kind of charger, refers to a kind of general-using type charger that can be used in polytype rechargeable battery especially.

Background technology

For follow-on living environment can be damaged; so everybody more and more payes attention to the issues associated of environmental protection; especially because the resource-constrained of the earth, so in the invention of article or to use then be towards the trend that can reuse, use the excessive use and the waste that reduce resource.

Present digital commodities such as mobile phone, digital camera, consumer electronic product etc., because the endurance of using and the problem of environmental protection, but so these class digital commodities rechargeable batteries that adopt recharge to use more, and because the battery of various digital commodities is not only not of uniform size, and because the difference of its inside battery structural design, the position of the desire of employed battery contact conducting positive-negative polarity own and spacing and have different specification, even if then also there is the difference of bottom surface and side the position of its conductive electrode, and be not suitable for the battery charger of other different sizes or different conductive electrode position, so the charger that is equipped with of various factory plate model is then under the demand of corresponding battery specification, and the specification limits of specific use is arranged.

Because the difference of battery specification, cause the kenel of in the use of charger, then having nothing in common with each other relatively, therefore the dealer must come die sinking respectively to make different charger moulds at the battery of various different types, cause long and increase manufacturing cost of required development time, yet digital commodities all had new style release in every month and eliminate transsexual big again, cause the new-type charger of the essential constantly exploitation of manufacturer, so that cost and stock constantly improve, not only in using seem very inconvenience and the waste that also causes resource to use, also cause relatively simultaneously cost that the user purchases various different chargers also with raising.

Moreover, along with the development in science and technology progress so far, make modern people that the mobile phone more than nearly all be arranged on hand, its perplex most then no more than carrying the demand that more than one battery charger adapts to battery charge simultaneously, too bother in fact and the problem that takes up space of carrying arranged, therefore with regard on the use aspect, then demonstrate economic benefit and the practical value of a general-using type charger on electrical equipment uses more.

And general modified form charger construction, mainly in loam cake storage tank bottom surface or side offer most terminal grooves at interval, conducting terminal must be arranged in the suitable terminal groove according to the battery size size, and can and cooperate the use of block according to the charging special designs position of battery, and select to be installed with in the storage tank bottom surface or the side terminal groove, use and reach each battery and all can be suitable for.Though above-mentioned modified form charger possesses each battery charge advantage, but do not claim the most economic, practical on the overall construction design, reason is as follows: the mode of utilizing block clamping rechargeable battery, unless offering various sizes and error amount can not be too big, not so the outer rim of its block and housing is inevitable and drop occurs, influences the globality of outward appearance.And desire to reach the various batteries effect of all charging, certainly will need charging electrode position according to battery of mobile phone, be installed in the conducting terminal that groove is arranged in the loam cake bottom surface and adjust, its step then must be taken base and loam cake apart in advance before this conducting terminal adjustment, so for adjusting this conducting terminal, all need base and the loam cake dismounting with combination consuming time, too complicated, consuming time problem is arranged really; And splicing ear must be according to the difference of the charging electrode position of battery and must be cut again and adjust, and hereat then must increase on the getting the raw materials ready of splicing ear assembly.So general modified form charger construction then still has the inconvenience of structural disappearance and use.

The utility model content

The purpose of this utility model provides a kind of charger, can the rechargeable battery of not even same specification of all kinds be charged numerous and diverse, the timesaving shortcoming of process when it can solve general modified form charger construction complexity, waste of material, use.

The purpose of this utility model is achieved in that a kind of charger, comprises a charging part; It is characterized in that this charging part is provided with a platform, a rolled-up stock, an elastic component and two conductive wire body; Wherein, this platform then is provided with two fixed parts at its front end, and the end and this elastic component that then are provided with this rolled-up stock of articulated section in the rear end of this platform are then fastened locking this articulated section due to this platform rear end via a built-in pivot group; Those fixed parts of this platform front end then are arranged with this conductive wire body respectively, wherein, and draw at suitable height and to set out this conductive wire body and form a conducting terminal.

The utility model has the advantages that simple in structure, saving material, reduce production costs, have more practicality effect easily in the use.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the charging part of the utility model charger;

Fig. 2 is that the solid of the charging part of the utility model charger is finished figure;

Fig. 3 is the use schematic diagram () of the charging part of the utility model charger;

Fig. 4 is the use schematic diagram (two) of the charging part of the utility model charger;

Fig. 5 is the outside drawing of the utility model charger;

Fig. 6 is the three-dimensional exploded view of the automatic location charging part of the utility model charger;

Fig. 7 is that the solid of the automatic location charging part of the utility model charger is finished figure;

Fig. 8 is the automatic location charging part of the utility model charger and the figure that combines of embedded preceding coverboard;

Fig. 9 is that the utility model charger is in conjunction with the use schematic diagram () of locating charging part automatically;

Figure 10 is that the utility model charger is in conjunction with the use schematic diagram (two) of locating charging part automatically;

Figure 11 is the three-dimensional exploded view of the automatic location charging part of the utility model charger;

Figure 12 is that the solid of the automatic location charging part of the utility model charger is finished figure;

Figure 13 is the automatic location charging part of the utility model charger and the figure that combines of embedded preceding coverboard;

Figure 14 is that the utility model charger is in conjunction with the use schematic diagram () of locating charging part automatically;

Figure 15 is that the utility model charger is in conjunction with the use schematic diagram (two) of locating charging part automatically.

The diagrammatical symbol explanation

(1) charging part

(11) platform

(12) rolled-up stock

(13) elastic component

(14) conductive wire body

(111) cylindrical tube

(112) articulated section

(113) loam cake

(141) conducting terminal

(1121) pivot group

(2) battery

(21) charging electrode

(3) locate charging part automatically

(31) embedded housing pedestal

(32) embedded shell structure

(33) butting section

(34) terminal mobile device

(35) drive motor

(311) pedestal passage

(312) stopping surface

(321) channel space

(322) track structure

(331) gear driven structure

(332) column gear

(333) slope

(341) terminal fixing pedestal

(342) short-range missile electric terminal row pin group

(343) long conducting terminal row pin group

(4) locate charging part automatically

(41) embedded housing pedestal

(42) embedded shell structure

(44) elastic component

(45) terminal mobile device

(411) pedestal passage

(412) channel space

(413) track structure

(431) pushing and pressing part

(432) pushing and pressing part

(451) terminal fixing pedestal

(452) short-range missile electric terminal row pin group

(453) long conducting terminal row pin group

(461) drive motor

(462) drive motor

(4311) gear driven structure

(4312) column gear

(4321) transfer

(5) embedded preceding coverboard

(6) charger

Embodiment

This creator adheres to this relevant industries for many years abundant design and develop and practice is made experience, studied improvement at structure of commonly using and disappearance, providing a kind of can charge to the rechargeable battery of not even same specification of all kinds, to reach a kind of charger construction improvement of the effect that on using, has more practical facility, in the hope of improving the disappearance of commonly using fully.Below sincerely with three specific embodiments, and assistant elaborates with graphic, so that the juror can have further and understand for technical characterictic of the present utility model.

Embodiment one, sees also Fig. 1～Fig. 5, and a kind of charger 6 comprises a charging part 1; Wherein, this charging part 1 is provided with a platform 11, a rolled-up stock 12, an elastic component 13 and two conductive wire body 14; Wherein, this platform 11 then is provided with two cylindrical tube 111 at its front end, then is provided with an articulated section 112 in the rear end of this platform 11; 13 these articulated sections 112 that locking schedules these platform 11 rear ends of being fastened of one end of this rolled-up stock 12 and this elastic component via a built-in pivot group 1121; 111 of those cylindrical tube of these platform 11 front ends are arranged with this conductive wire body 14 respectively, draw wherein and at suitable height to set out this conductive wire body 14 and form a conducting terminal 141; This platform 11 more is provided with a loam cake 113, and this loam cake 113 is hubbed at this both sides, platform 11 rear end with the one end.

According to the position of the charging electrode 21 of battery 2 itself, with battery 2 be placed in the conducting terminal 141 of this charging part 1 can be against the appropriate location on the platform 11 that touches; And by the use of rolled-up stock 12, battery 2 given steadily suppressing regularly be resisted against on the platform 11, wherein, this rolled-up stock 12 be by with being connected of this elastic component 13, and the power of utilizing elastic-restoring forces of this elastic component 13 itself to provide this rolled-up stock 12 down to suppress relatively; Again via the anglec of rotation of adjusting this conducting terminal 141 and the height of the amplitude of oscillation up and down, make that this conducting terminal 141 can be against the charging electrode 21 that touches to battery 2, and then form charge circuit and come battery 2 chargings.

Embodiment two, see also Fig. 1～Figure 10, and a kind of charger 6 comprises a charging part 1 and location charging part 3 automatically, and are provided with an embedded preceding coverboard 5; Wherein, this charging part 1 is provided with a platform 11, a rolled-up stock 12, an elastic component 13, two conductive wire body 14; Wherein, this platform 11 then is provided with two cylindrical tube 111 at its front end, then is provided with an articulated section 112 in the rear end of this platform 11; 13 these articulated sections 112 that locking schedules these platform 11 rear ends of being fastened of one end of this rolled-up stock 12 and this elastic component via a built-in pivot group 1121; 111 of those cylindrical tube of these platform 11 front ends are arranged with this conductive wire body 14 respectively, draw wherein and at suitable height to set out this conductive wire body 14 and form a conducting terminal 141; This platform 11 more is provided with a loam cake 113, and this loam cake 113 is hubbed at this both sides, platform 11 rear end with the one end; Automatically 3 of the charging part in location are to be arranged at this charger 6 inside by being fixed in this embedded preceding coverboard 5.

According to the position of the charging electrode 21 of battery 2 itself, with battery 2 be placed in the conducting terminal 141 of this charging part 1 can be against the appropriate location on the platform 11 that touches; And by the use of rolled-up stock 12, battery 2 given steadily suppressing regularly be resisted against on the platform 11, wherein, this rolled-up stock 12 be by with being connected of this elastic component 13, and the power of utilizing elastic-restoring forces of this elastic component 13 itself to provide this rolled-up stock 12 down to suppress relatively; Again via the anglec of rotation of adjusting this conducting terminal 141 and the height of the amplitude of oscillation up and down, make that this conducting terminal 141 can be against the charging electrode 21 that touches to battery 2, and then form charge circuit and come battery 2 chargings.

Automatically 3 of the charging part in location are the belows that is relatively arranged on this charging part 1; Automatically location charging part 3 comprises: embedded housing pedestal 31, one an embedded shell structure 32, two butting sections 33, a terminal mobile device 34 and drive motor 35; And arranged on left and right sides on this embedded housing pedestal 31 is built-in with this butting section 33 of two correspondences respectively; And in the centre position of this embedded housing pedestal 31, with respect to then being installed with a pedestal passage 311 between those butting sections 33 of and arranged on left and right sides, the bottom of this pedestal passage 311 then is provided with a stopping surface 312; Then structure is provided with a corresponding gear driven structure 331 below those butting sections 33 of both sides on this embedded housing pedestal 31, wherein, and is disposed at this drive motor 35 by a column gear 332 that is arranged in this gear driven structure 331; This 32 of embedded shell structure is the top that correspondence is installed in this embedded housing pedestal 31; Corresponding to the relative position of pedestal passage 311, also be provided with a channel space 321 on this embedded shell structure 32, and in the both sides of this channel space 321 correspondence one track structure 322 be set, this terminal mobile device 34 then is arranged on this track structure 322; Then be provided with a terminal fixing pedestal 341 on this terminal mobile device 34, this terminal fixing pedestal 341 then disposes convex short-range missile electric terminal row pin group 342 and the long conducting terminal row of convex pin group 343 simultaneously.

When the bottom is inserted and be pushed into to battery 2 in pedestal passage 311 porch of location charging part 3 automatically from this, then drive motor 35 and will begin action, and driven gear drives structure 331, and then drive in the embedded housing pedestal 31 left, the past lentamente inner mobile also while of the butting section 33 of both sides, the right side is by the mechanism design of the slope 333 of butting section, both sides 33, and make battery 2 up move and bring to the location gradually via the action of pinching, this moment battery 2 a left side, right edge is all propped up by the butting section 33 of both sides, and the side that the other end of battery 2 then is embedded into sandwich type element structure 32 gives block; And behind battery 2 location, the terminal mobile device 34 that then is arranged on the track structure 322 of embedded shell structure 32 will start, and begin back to front to move gradually, and then set convex short-range missile electric terminal row pin group 342, the long conducting terminal of convex arranged the charging electrode 21 that pin group 343 is gone against battery 2 on the drive terminal fixing pedestal 341, and when charge circuit formed, then this terminal mobile device 34 will stop to move; Behind to be charged the finishing, this is located 3 of charging part automatically and can counteragent battery 2 is return and is placed on the pedestal passage 311.

Embodiment three, see also Fig. 1～Fig. 5, Figure 11～Figure 15, and a kind of charger 6 comprises a charging part 1 and location charging part 4 automatically, and are provided with an embedded preceding coverboard 5; Wherein, this charging part 1 is provided with a platform 11, a rolled-up stock 12, an elastic component 13 and two conductive wire body 14; Wherein, this platform 11 then is provided with two cylindrical tube 111 at its front end, then is provided with an articulated section 112 in the rear end of this platform 11; 13 of one end of this rolled-up stock 12 and this elastic components are fastened locking this articulated section 112 due to these platform 11 rear ends via a built-in pivot group 1121; 111 of those cylindrical tube of these platform 11 front ends are arranged with this conductive wire body 14 respectively, draw wherein and at suitable height to set out this conductive wire body 14 and form a conducting terminal 141; This platform 11 more is provided with a loam cake 113, and this loam cake 113 is hubbed at this both sides, platform 11 rear end with the one end; Automatically 4 of the charging part in location are to be arranged at this charger 6 inside by being fixed in this embedded preceding coverboard 5.

According to the position of the charging electrode 21 of battery 2 itself, with battery 2 be placed in the conducting terminal 141 of this charging part 1 can be against the appropriate location on the platform 11 that touches; And by the use of rolled-up stock 12, battery 2 given steadily suppressing regularly be resisted against on the platform 11, wherein, this rolled-up stock 12 be by with being connected of this elastic component 13, and the power of utilizing elastic-restoring forces of this elastic component 13 itself to provide this rolled-up stock 12 down to suppress relatively; Again via the anglec of rotation of adjusting this conducting terminal 141 and the height of the amplitude of oscillation up and down, make that this conducting terminal 141 can be against the charging electrode 21 that touches to battery 2, and then form charge circuit and come battery 2 chargings.

Automatically 4 of the charging part in location are the belows that is relatively arranged on this charging part 1; Automatically location charging part 4 comprises: the embedded shell structure of an embedded housing pedestal 41, one 42, three 431,432, two groups of elastic components in pushing and pressing part 44, a terminal mobile device 45 and two drive motors 461,462; And arranged on left and right sides on this embedded housing pedestal 41 then is built-in with the pushing and pressing part 431 of two correspondences respectively; And in the centre position of this embedded housing pedestal 41, with respect to then being installed with a pedestal passage 411 between those pushing and pressing parts 431 of and arranged on left and right sides; In the bottom of this pedestal passage 411 of this embedded housing pedestal 41, then correspondence is provided with a channel space 412, and then correspondence is provided with a track structure 413 in the both sides of this channel space 412, and this terminal mobile device 45 then is arranged on this track structure 413; Then be provided with a terminal fixing pedestal 451 on this terminal mobile device 45, then dispose convex short-range missile electric terminal row pin group 452 and the long conducting terminal row of convex pin group 453 on this terminal fixing pedestal 451 simultaneously; The back side of those pushing and pressing parts 431 of both sides then is provided with this elastic component 44 and links with a side of this embedded housing pedestal 41 respectively on this embedded housing pedestal 41; Then structure is provided with a corresponding gear driven structure 4311 below those pushing and pressing parts 431 of both sides on this embedded housing pedestal 41, wherein, and is disposed at this drive motor 461 by a column gear 4312 that is arranged in this gear driven structure 4311; This 42 of embedded shell structure is the top that correspondence is installed in this embedded housing pedestal 41; Corresponding to the relative position of this pedestal passage 411, also be provided with this pushing and pressing part 432 on this embedded shell structure 42, this pushing and pressing part 432 then is to do binding by a transfer 4321 and this drive motor 462.

Battery 2 is to insert and be pushed into the bottom in pedestal passage 411 porch of location charging part 4 automatically from this, when this battery 2 pushed pedestal passage 411 inside, the pushing and pressing of then can taking advantage of a situation were offered and are placed the pushing and pressing part 431 that and arranged on left and right sides have resilient abutment in the embedded housing pedestal 41; Wherein, then be to combine on the structure of the elasticity pushing and pressing part 431 of and arranged on left and right sides in this embedded housing pedestal 41 with a gear driven structure 4311, and by reaching motion mechanism with the interlock that drives motor 461; When the elasticity pushing and pressing part 431 of and arranged on left and right sides in the embedded housing pedestal 41 is open by inserting of pedestal passage 411 because of battery 2, then can drive the gear driven structure 4311 that is linked together, make the elasticity pushing and pressing part 431 of embedded housing pedestal 41 interior and arranged on left and right sides to come symmetry to move it indirectly in equidistant mode; And when battery 2 is pushed into the bottom of pedestal passage 411, then drive motor 461 will start, and oppositely drive the elasticity pushing and pressing part 431 that is arranged at pedestal passage 411 and arranged on left and right sides via gear driven structure 4311 and clamp battery 2; And this moment, another drive motor 462 also can start, and drove the pushing and pressing part 432 that is arranged at pedestal passage 411 tops by transfer 4321, moved with the pushing and pressing of compacting from top to bottom to make battery 2 smooth in this pedestal passage 411; And battery 2 then also can directly be arranged pin group 453 against convex short-range missile electric terminal row pin group 452, the long conducting terminal of convex set to the terminal fixing pedestal 451 of this terminal mobile device 45 when being pushed into pedestal passage 411 bottoms; If the long conducting terminal row of convex short-range missile electric terminal row's pin group 452 or convex pin group 453 then can form charge circuit immediately against the charging electrode 21 to battery 2; Otherwise, when charge circuit does not form, then this terminal mobile device 45 will start, and begin the negative side with battery 2 positions and always move gradually, and then drive convex short-range missile electric terminal row pin group 452, the long conducting terminal of convex set on the terminal fixing pedestal 451 and arrange pin group 453 and go to form charge circuit against the charging electrode 21 that touches to battery 2; General charging electrode 21 is below battery 2 or the battery of bottom 2 specifications, greatly can both be when battery 2 push pedestal passage 411 bottoms, this convex short-range missile electric terminal row's pin group 452 or the long conducting terminal of convex are arranged pin group 453 and can be formed charge circuit immediately against the charging electrode 21 that touches battery 2.

The foregoing description is only established for ease of explanation, and promptly the various shift design of doing according to listed claim generally all should be contained in the application range of this case, would like to ask the auditor and can vouchsafe this case patent early, and the true feeling moral just.

Claims (7)

1. a charger comprises a charging part; It is characterized in that this charging part is provided with a platform, a rolled-up stock, an elastic component and two conductive wire body; Wherein, this platform then is provided with two fixed parts at its front end, then is provided with an articulated section in the rear end of this platform; One end of this rolled-up stock and this elastic component are then fastened locking this articulated section due to this platform rear end via a built-in pivot group; Those fixed parts of this platform front end then are arranged with this conductive wire body respectively, wherein, and draw at suitable height and to set out this conductive wire body and form a conducting terminal.

2. charger as claimed in claim 1 is characterized in that this fixed part refers to a cylindrical tube especially.

3. charger as claimed in claim 2 is characterized in that this platform more is provided with a loam cake, and this loam cake is hubbed at this both sides, platform rear end with the one end.

4. charger as claimed in claim 3 is characterized in that the below of this charging part more can be provided with an automatic location charging part; Automatically the location charging part comprises: an embedded housing pedestal, an embedded shell structure, two butting sections, a terminal mobile device and drive motor; And arranged on left and right sides on this embedded housing pedestal is built-in with this butting section of two correspondences respectively; And in the centre position of this embedded housing pedestal, with respect to then being installed with a pedestal passage between those butting sections of and arranged on left and right sides, the bottom of this pedestal passage then is provided with a stopping surface; Then structure is provided with a corresponding gear driven structure below those butting sections of both sides on this embedded housing pedestal, wherein, and is disposed at this drive motor by a column gear that is arranged in this gear driven structure; This embedded shell structure then is the top that correspondence is installed in this embedded housing pedestal; Corresponding to the relative position of pedestal passage, also be provided with a channel space on this embedded shell structure, and in the both sides of this channel space correspondence one track structure be set, this terminal mobile device then is arranged on this track structure; Then be provided with a terminal fixing pedestal on this terminal mobile device, this terminal fixing pedestal then disposes conducting terminal row pin group.

5. charger as claimed in claim 4 is characterized in that this conducting terminal row pin group more can comprise convex short-range missile electric terminal row's pin group and the long conducting terminal row of convex pin group.

6. charger as claimed in claim 3 is characterized in that the below of this charging part more can be provided with an automatic location charging part; Automatically the location charging part comprises: an embedded housing pedestal, an embedded shell structure, a plurality of pushing and pressing part, two elastic components, a terminal mobile device and two drive motor; And arranged on left and right sides on this embedded housing pedestal then is built-in with this pushing and pressing part of two correspondences respectively; And in the centre position of this embedded housing pedestal, with respect to then being installed with a pedestal passage between those pushing and pressing parts of and arranged on left and right sides; In the bottom of this pedestal passage of this embedded housing pedestal, then correspondence is provided with a channel space, and then correspondence is provided with a track structure in the both sides of this channel space, and this terminal mobile device then is arranged on this track structure; Then be provided with a terminal fixing pedestal on this terminal mobile device, then dispose conducting terminal row pin group on this terminal fixing pedestal; The back side of those pushing and pressing parts of both sides then is provided with this elastic component and links with a side of this embedded housing pedestal respectively on this embedded housing pedestal; Then structure is provided with a corresponding gear driven structure below those pushing and pressing parts of both sides on this embedded housing pedestal, wherein, and is disposed at this drive motor by a column gear that is arranged in this gear driven structure; This embedded shell structure then is the top that correspondence is installed in this embedded housing pedestal; Corresponding to the relative position of this pedestal channel, also be provided with this pushing and pressing part on this embedded shell structure, this pushing and pressing part then is to do binding with this drive motor by a transfer.

7. charger as claimed in claim 6 is characterized in that this conducting terminal row pin group more can comprise convex short-range missile electric terminal row's pin group and the long conducting terminal row of convex pin group.

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