CN201859906U - Translational battery locking mechanism for digital camera - Google Patents

Abstract

The utility model relates to a translational battery locking mechanism for a digital camera. The translational battery locking mechanism comprises a locking handle, a torsional spring and a fixing column of the torsional spring. The translational battery locking mechanism is characterized in that the locking handle is a translational locking handle which is composed of a translational locking plate and a groove plate of the torsional spring, wherein the translational locking plate is translational along the end surface of a groove port of a battery groove; the groove plate of the torsional spring is arranged on the back surface of the locking plate and perpendicular to the locking plate; a pressing groove of the torsional spring perpendicular to the translational locking plate is arranged on the groove plate of the torsional spring; sliding rails at the two sides of back surface of the translational locking plate are respectively combined with sliding rails at two sides of the groove plate of the torsional spring to form indented sliding rails at the two sides; the translational locking handle is inserted into a camera body of the camera in a sliding way along a guiding ledge on the camera body of the camera through the indented slide rails, and the groove plate of the torsional spring is located at the camera body; the fixing column of the torsional spring is perpendicular to the pressing groove of the torsional spring; one end of the torsional spring is pressed into the pressing groove of the torsional spring, and the other end of the torsional spring is pressed on the camera body; the translational locking handle is located at the position of a block end of the locking plate protruding out of the end surface of the groove port of the battery groove. The translational battery locking mechanism has the advantages of reducing structural parts, simplifying the process, lowering the cost, being convenient for battery assembling and improving the locking fastness and.

Description

A kind of flatly moving type battery retaining mechanism that is used for digital camera

Technical field

The utility model relates to the battery retaining mechanism of digital camera, relates in particular to a kind of flatly moving type battery retaining mechanism that is used for digital camera.

Background technology

The battery retaining mechanism of digital camera generally adopts rotary retaining mechanism at present.This structure mainly by rotary battery shank of the key, shank of the key rotating shaft, the torsion spring of block battery, form by torsion spring fixed leg and locking collar, and torsion spring one end is pressed in the shank of the key rotating shaft, and the other end is pressed on the body, and the torsion spring fixed leg is positioned on the body by collar.Conventional state is positioned on the position of block battery at battery shank of the key under the torsional interaction of torsion spring, and battery is locked in the battery case.Rotate the battery shank of the key and leave cell body, then can take out or put battery from battery case, dress is got end, unclamps the battery shank of the key, and under the effect of torsion spring reset torque, the battery shank of the key is stabilized in again on the position of block battery.

The drawback of above-mentioned traditional rotary battery retaining mechanism is: (1) makes complex structure for the stability that the easy on and off degree of constraint battery lock improves the battery lock must be provided with the locking collar, increases assembly difficulty, and increases the camera cost; (2) battery shank of the key block end is a pointed shape, and is little with the battery contact area, and battery is fixing insecure, and battery comes off easily during impact; When (3) stirring battery lock taking-up battery, torsion spring power can rise by straight line, and feel is bad; (4) existing single rotary battery retaining mechanism can not adapt to the requirement of various different cameral structural designs.

The utility model content

Main purpose of the present utility model is at the problems referred to above, a kind of flatly moving type battery retaining mechanism that is used for digital camera is provided, thereby simplified structure and assembly technology, increase battery lock and battery contact area, improve the locking fastness, and raising fetching battery convenience, for adapting to the different cameral structural requirement, provide a kind of novel battery retaining mechanism.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of flatly moving type battery retaining mechanism that is used for digital camera, comprise the shank of the key that is provided with the block end that is arranged on the battery case notch end face, drive the torsion spring of shank of the key, the torsion spring fixed leg, it is characterized in that described shank of the key is to reach the translation shank of the key that constitutes perpendicular to the torsion spring frid of translation jam plate plate face setting at its middle part, back side by the translation jam plate that stretches by translation along battery case notch end face, the torsion spring frid is provided with the bar shaped torsion spring indent vertical with the translation jam plate, the translation jam plate back side two wood side-guides are combined to form both sides indent slide rail with torsion spring frid both sides slide rail respectively, the corresponding both sides guiding fin that is slidingly matched with both sides indent slide rail that is provided with on the camera body, the translation shank of the key slides along both sides guiding fin respectively by both sides indent slide rail and inserts the camera body, and the torsion spring frid is positioned on the camera body; Described torsion spring fixed leg is arranged on the camera body perpendicular to described torsion spring indent, described torsion spring one end of suit on it is pressed into the torsion spring indent, the other end is pressed on the camera body, and the translation shank of the key is positioned the position that its jam plate block end stretches out battery case notch end face block battery.

On described indent slide rail, be provided with sliding rib.

Described jam plate block end is square or circular arc, and its upper surface is a slope.

Be provided with the translation direction signs at described translation jam plate outer surface.

Described torsion spring fixed leg and guiding fin and camera body are the integrated through injection molding part, and the translation shank of the key that is provided with translation jam plate, torsion spring frid and indent slide rail is the integrated through injection molding part.

The beneficial effects of the utility model are: save the locking collar with the traditional structure ratio, structural member is reduced, and cost reduces, and adopts the indent slide rail directly to finish mount with leading that fin is slidingly matched and combine with torsion spring, technological operation is simplified and is located firmly, enhances productivity; Especially jam plate block end is square or circular arc, strengthens with the battery contact area, improves the locking fastness; In addition, the flatly moving type locking mechanism that adopts the utility model to provide, relative traditional structure, because torsion spring one end is pressed in the torsion spring indent of translation jam plate, in opening the retaining mechanism process, the torsion spring end constantly moves in groove, therefore makes uniform force application, comfortable feel; Especially jam plate block end outer surface is a slope, has improved the quick convenience of putting battery, and the utility model provides a kind of novel battery retaining mechanism for adapting to the different cameral structural requirement, has widened the application form of camera.

Description of drawings

Fig. 1 is a main TV structure schematic diagram of the present utility model;

Fig. 2 is the upward view of Fig. 1;

Fig. 3 is the structure schematic diagram of translation shank of the key;

Fig. 4 is the side structure schematic diagram of translation shank of the key;

Fig. 5 is an assembling schematic diagram of the present utility model.

Among the figure: 1 battery, 2 translation shank of the keys, 21 translation direction signs, 22 translation jam plates, 23 torsion spring frids, 24 torsion spring indents, 25 indent slide rails, 26 jam plate block ends, 27 sliding ribs, 3 camera bodies, 31 battery cases, 32 notch end faces, 33 guiding fins, 4 torsion springs, 5 torsion spring fixed legs.

Below in conjunction with drawings and Examples the utility model is described in detail.

Embodiment

Fig. 1～Fig. 5 illustrates a kind of flatly moving type battery retaining mechanism that is used for digital camera, comprise the shank of the key that is provided with the block end that is arranged on the battery case 31 notch end faces 32, drive the torsion spring 4 of shank of the key, torsion spring fixed leg 5, it is characterized in that above-mentioned shank of the key is to reach the translation shank of the key 2 that constitutes perpendicular to the torsion spring frid 23 of translation jam plate plate face setting at its middle part, back side by the translation jam plate 22 that the notch end face 32 along battery case 31 stretches by translation, torsion spring frid 23 is provided with the bar shaped torsion spring indent 24 vertical with translation jam plate 22, translation jam plate 22 back sides two wood side-guides are combined to form both sides indent slide rail 25 with torsion spring frid 23 both sides slide rails respectively, in the present embodiment, the indent slide rail 25 of both sides is to be combined to form with the right angle slide rail of torsion spring frid 23 both sides respectively by the right angle slide rail of both sides, translation jam plate 22 back side.

The corresponding both sides guiding fin 33 that is slidingly matched with both sides indent slide rail that is provided with on the camera body 3, translation shank of the key 2 slides along both sides guiding fin respectively by both sides indent slide rail and inserts camera body 3, and torsion spring frid 23 is positioned on the camera body 3; Be provided with sliding rib 27 on above-mentioned indent slide rail 25, sliding rib 27 cooperates slip with guiding fin 33, and frictional force is reduced, and sliding effect is better, and is more stable.

Above-mentioned torsion spring fixed leg 5 is arranged on the camera body 3 perpendicular to torsion spring indent 24, torsion spring 4 one ends of suit on it are pressed into torsion spring indent 24, the other end is pressed on the camera body 3, makes translation shank of the key 2 be positioned the position that its jam plate block end 26 stretches out battery case notch end face block battery 1.

Above-mentioned jam plate block end 26 is square or circular arc, adopts squarely in this example, and jam plate block end and battery contact-making surface increasing like this locks more firm.Especially jam plate block end 26 outer surfaces are slope, and it is convenient and swift to put battery, and comfortable feel.Be provided with translation direction signs 21 at above-mentioned translation jam plate 22 outer surfaces, promptly an arrow can be given clearly operation indication.

Add man-hour actual, above-mentioned torsion spring fixed leg 5 and guiding fin 33 are the integrated through injection molding part with camera body 3; The translation shank of the key 2 that is provided with translation jam plate 22, torsion spring frid 23 and indent slide rail 25 also is the integrated through injection molding part.Process easyly, the precision height is suitable for producing in batches.

During application, under normal conditions, torsion spring 4 compresses translation shank of the key 2, and translation shank of the key 2 blocks battery 1 by jam plate block end 26, realizes the fixing of battery.When needs take out battery, only need promote jam plate block end 26 to retracted orientation, the compressing torsion spring is made bigger distortion, when jam plate block end and the complete timesharing battery of battery just eject next.When needs were packed battery into, the battery bottom surface propped up the slope of jam plate block end 26 to pressing down, and by the thrust compressing torsion spring distortion of battery, battery is just put into battery case easily, and torsion spring resets, and jam plate block end block is on battery.

The above only is a preferred embodiment of the present utility model, is not shape material of the present utility model and structure are done any pro forma restriction.Every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any simple modification, equivalent variations and modification that above embodiment did.

Claims (6)

1. flatly moving type battery retaining mechanism that is used for digital camera, comprise the shank of the key that is provided with the block end that is arranged on the battery case notch end face, drive the torsion spring of shank of the key, the torsion spring fixed leg, it is characterized in that described shank of the key is to reach the translation shank of the key that constitutes perpendicular to the torsion spring frid of translation jam plate plate face setting at its middle part, back side by the translation jam plate that stretches by translation along battery case notch end face, the torsion spring frid is provided with the bar shaped torsion spring indent vertical with the translation jam plate, the translation jam plate back side two wood side-guides are combined to form both sides indent slide rail with torsion spring frid both sides slide rail respectively, the corresponding both sides guiding fin that is slidingly matched with both sides indent slide rail that is provided with on the camera body, the translation shank of the key slides along both sides guiding fin respectively by both sides indent slide rail and inserts the camera body, and the torsion spring frid is positioned on the camera body; Described torsion spring fixed leg is arranged on the camera body perpendicular to described torsion spring indent, described torsion spring one end of suit on it is pressed into the torsion spring indent, the other end is pressed on the camera body, and the translation shank of the key is positioned the position that its jam plate block end stretches out battery case notch end face block battery.

2. a kind of flatly moving type battery retaining mechanism that is used for digital camera according to claim 1 is characterized in that being provided with sliding rib on described indent slide rail.

3. a kind of flatly moving type battery retaining mechanism that is used for digital camera according to claim 1 and 2 is characterized in that described jam plate block end is square or circular arc, and its upper surface is a slope.

4. a kind of flatly moving type battery retaining mechanism that is used for digital camera according to claim 3 is characterized in that being provided with the translation direction signs at described translation jam plate outer surface.

5. a kind of flatly moving type battery retaining mechanism that is used for digital camera according to claim 4, it is characterized in that described torsion spring fixed leg and guiding fin and camera body are the integrated through injection molding part, the translation shank of the key that is provided with translation jam plate, torsion spring frid and indent slide rail is the integrated through injection molding part.

6. a kind of flatly moving type battery retaining mechanism that is used for digital camera according to claim 1 and 2, it is characterized in that described torsion spring fixed leg and guiding fin and camera body are the integrated through injection molding part, the translation shank of the key that is provided with translation jam plate, torsion spring frid and indent slide rail is the integrated through injection molding part.

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