CN104469114A - Mobile terminal and full-automatic turnover camera shooting assembly - Google Patents
Mobile terminal and full-automatic turnover camera shooting assembly Download PDFInfo
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- CN104469114A CN104469114A CN201410745714.5A CN201410745714A CN104469114A CN 104469114 A CN104469114 A CN 104469114A CN 201410745714 A CN201410745714 A CN 201410745714A CN 104469114 A CN104469114 A CN 104469114A
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Abstract
The invention provides a mobile terminal and a full-automatic turnover camera shooting assembly. The mobile terminal comprises a containing groove and a driving control mechanism. The containing groove comprises a bottom face, two first side walls and a second side wall, a first flange extending toward a second face of the mobile terminal is arranged at one end, connected with a first side edge of the mobile terminal, of the bottom face, the two first side walls are oppositely arranged and vertically connected with the bottom face, a second flange extending toward the first side edge of the mobile terminal is arranged at one end, connected with the second face of the mobile phone, of the second side wall, the bottom face, the first flange and the second side wall are connected through a cambered surface or a corner, and the bottom face, the second side wall and the second flange are connected through a cambered surface or a corner. The driving control mechanism comprises a motor, and the camera shooting assembly is driven by the driving control mechanism to be turned over when the motor operates and is locked by the driving control mechanism at the remaining time. According to the mobile terminal, the camera shooting assembly can be turned over better.
Description
Technical field
The disclosure relates to portable electric appts technical field, is specifically related to a kind of mobile phone Full-automatic turn-over type camera assembly.
Background technology
At present, along with the development of the communication technology, a lot of mobile terminal, such as smart mobile phone, panel computer etc. are provided with front-facing camera.Along with the lifting of the demand such as long-distance video and auto heterodyne, the performance for the front-facing camera of mobile terminal it is also proposed higher requirement.
But be subject to the restriction of the factors such as cost, aesthetic measure and installing space, the front-facing camera that mobile terminal is equipped with is generally the general minisize pick-up head of performance, therefore be difficult to realize the functions such as such as optical zoom, precisely focusing, aperture adjustment, thus the shooting effect of high-quality cannot be realized.
In prior art, although in part mobile terminal, providing convertible camera assembly, thus can carry out turning operation to post-positioned pick-up head and use as front-facing camera, still there is many parts that haves much room for improvement in it.
Summary of the invention
Object of the present disclosure is to provide and the object of the invention is to for the subproblem in background technology or whole issue, provides a kind of mobile terminal and the Full-automatic turn-over type camera assembly that better can realize camera assembly upset.
Other characteristics of the present disclosure and advantage become obvious by by detailed description below, or the acquistion partially by practice of the present disclosure.
According to first aspect of the present disclosure, provide a kind of mobile terminal, there is the front sheet material being positioned at its one side; Comprise:
One storage tank, is located at one end of second that described mobile terminal is relative with described first surface, is provided with the camera assembly of rotating shaft for accommodating one; Described storage tank comprises:
One bottom surface, is parallel to described front sheet material and one end that described bottom surface connects with described mobile terminal first side is provided with the one first convex eaves extended to described mobile terminal second direction;
Two the first side walls, are oppositely arranged and connect with described plane perpendicular, and the first side wall described in two is respectively equipped with one for setting up the installing hole of described rotating shaft; And,
One second sidewall, perpendicular to described front sheet material and one end that described second sidewall connects with described mobile terminal second face is provided with the one second convex eaves extended to direction, described mobile terminal first side; Described bottom surface is connected by cambered surface or corner with between the first convex eaves and the second sidewall and between described second sidewall and the second convex eaves; And,
One drived control mechanism, is connected with described rotating shaft, for driven by described rotating shaft described camera assembly overturn or by described camera assembly locking; Described drived control mechanism comprises a motor; When described motor running, described drived control mechanism drives described camera assembly to overturn, and in all the other moment, described drived control mechanism is by described camera assembly locking.
In a kind of example embodiment of the present disclosure, described drived control mechanism also comprises:
One first gear, is coaxially fixedly connected with described rotating shaft one end;
One driving rack, with described first gears meshing;
One push-pull mechanism, is connected with described driving rack and described motor, for driving rack described in push-and-pull under described motor effect.
In a kind of example embodiment of the present disclosure, described pushing mechanism comprises:
One threaded post, is fixedly connected with described driving rack and axially in the described driving rack direction of motion;
One second gear, is set in described threaded post and its inner ring is provided with the block part in the described threaded post thread surface of an embedding;
One the 3rd gear, is fixedly connected with the output shaft of described motor with described second gears meshing.
In a kind of example embodiment of the present disclosure, described driving rack by least one travelling gear and described first gears meshing and/or described 3rd gear by a train of reduction gears and described second gears meshing.
In a kind of example embodiment of the present disclosure, described installing hole is located at described the first side wall one end away from described second sidewall.
In a kind of example embodiment of the present disclosure, described mobile terminal also comprises:
One computing processing sector, is electrically connected with described motor and camera assembly, for controlling the startup of described motor and running and for receiving the data that described camera assembly obtains;
One end that described rotating shaft does not connect described first gear offers a cable hole, and a flexible electrical route one end is electrically connected by described cable hole and described camera assembly, and the other end and described computing processing sector are electrically connected.
According to second aspect of the present disclosure, provide a kind of Full-automatic turn-over type camera assembly, be applied to any one mobile terminal above-mentioned; Described camera assembly first end is provided with a lens assembly, and the second end can be fitted with described storage tank bottom surface, and described rotating shaft is fixedly connected with described camera assembly.
In a kind of example embodiment of the present disclosure, described camera assembly has the cambered surface with the junction adaptation of described bottom surface and the first convex eaves and the second sidewall, or the position of the junction of the corresponding described bottom surface of described camera assembly and the first convex eaves and the second sidewall is provided with unfilled corner, to ensure the storage tank described in described camera assembly second end non-contravention when described camera assembly upset.
In a kind of example embodiment of the present disclosure, the position that described rotating shaft axle center is arranged ensures that the first side of described camera assembly and described mobile terminal when described camera assembly does not overturn is seamless applying and overturn lens assembly described in rear described first convex eaves non-contravention at described camera assembly.
In a kind of example embodiment of the present disclosure, described rotating shaft axle center is the half of described first convex eaves top to described camera assembly first end distance to the distance of described camera assembly first end.
In a kind of example embodiment of the present disclosure, by offering storage tank at mobile terminal back and being optimized its shape, Full-automatic turn-over type camera assembly with described storage tank shape adaptation is provided simultaneously, and in other example embodiment of the present disclosure, also control to improve to the setting of camera assembly rotating shaft and the upset of camera assembly, thus better can realize the upset of camera assembly, perfect realization is autodyned or video calling, reach the effect of one-object-many-purposes, save the production cost of mobile terminal; In addition, the disclosure also avoids weakening of the mobile terminal performance brought owing to realizing camera assembly upset, thus improves Consumer's Experience.
Accompanying drawing explanation
Describe its example embodiment in detail by referring to accompanying drawing, above-mentioned and further feature of the present disclosure and advantage will become more obvious.
Fig. 1 and Fig. 2 is the structural representation of a kind of mobile terminal under two kinds of different shapes in disclosure example embodiment;
Fig. 3 is the structural representation of a kind of storage tank in disclosure example embodiment;
Fig. 4 is the combination schematic diagram of a kind of storage tank and camera assembly in disclosure example embodiment;
Fig. 5 is the side schematic view of a kind of camera assembly in disclosure example embodiment;
Fig. 6 is the side schematic view of another kind of camera assembly in disclosure example embodiment;
Fig. 7 is the structural representation of a kind of drived control mechanism in disclosure example embodiment;
Fig. 8 is the structural representation of a kind of example embodiment of the 3rd gear in Fig. 7.
Description of reference numerals:
10 mobile terminals
11 storage tanks
111 bottom surfaces
1111 first convex eaves
112 the first side walls
113 second sidewalls
1131 second convex eaves
114 installing holes
12 first sides
13 flexible electrical routes
141 first gears
142 driving racks
143 travelling gears
144 threaded post
145 second gears
20 camera assemblies
201 rotating shafts
202 cambered surfaces
203 unfilled corners
204 lens assemblies
H1, H2 distance
Embodiment
More fully example embodiment is described referring now to accompanying drawing.But example embodiment can be implemented in a variety of forms, and should not be understood to be limited to execution mode set forth herein; On the contrary, these execution modes are provided to make the disclosure comprehensively with complete, and the design of example embodiment will be conveyed to those skilled in the art all sidedly.In the drawings, in order to clear, exaggerate the thickness of region and layer.Reference numeral identical in the drawings represents same or similar structure, thus will omit their detailed description.
In addition, described feature, structure or characteristic can be combined in one or more embodiment in any suitable manner.In the following description, provide many details thus provide fully understanding embodiment of the present disclosure.But, one of skill in the art will appreciate that and can put into practice technical scheme of the present disclosure and not have in described specific detail one or more, or other method, constituent element, material etc. can be adopted.In other cases, known features, material or operation is not shown specifically or describes to avoid fuzzy each side of the present disclosure.
Provide a kind of mobile terminal in this example embodiment and be applied to the Full-automatic turn-over type camera assembly of this mobile terminal.Mobile terminal in the present invention can be the mobile devices such as such as mobile phone, panel computer, palmtop PC, and not as limit; That mobile phone is described in detail for this mobile terminal in this example embodiment.
As shown in Figure 1 to Figure 4, the front of mobile terminal 10 is provided with a front sheet material, and such as, this front sheet material can be a glass cover-plate.Be provided with the assembly such as receiver and light sensor (not shown) on the top, front of mobile terminal 10, the part that front sheet material is positioned at mobile terminal 10 top is provided with corresponding opening to expose described receiver and light sensor.Offer a storage tank 11 on the top at the back of described mobile terminal 10, this storage tank 11 is for an accommodating Full-automatic turn-over type camera assembly 20.This camera assembly 20 is provided with a rotating shaft 201, and this rotating shaft 201 is rotatably connected with described storage tank 11.Therefore, as shown in Figure 2, described camera assembly 20 can realize the rotation of predetermined angular, and such as, in this example embodiment, described camera assembly 20 can realize the rotation of 0 to 180 degree.
Shown in figure 3, it is the structural representation of above-mentioned storage tank 11.The bottom of described storage tank 11 is a sunk structure.For example, described storage tank 11 can comprise bottom surface 111, two the first side wall 112 and one second sidewall 113.Wherein, described bottom surface 111 is parallel to described front sheet material, and one end that described bottom surface 1 connects with the first side 12 of described mobile terminal 10 is provided with the one first convex eaves 1111 extended to described mobile terminal second direction; Described first convex eaves 1111 lower than described first side 12 so that the upset of described camera assembly 20.Two described the first side walls 112 be oppositely arranged and with described bottom surface 111 vertical connection.Two described the first side walls 112 are respectively equipped with an installing hole 114, thus the rotating shaft 201 stating camera assembly 20 described in can making is erected in installing hole 114.Described second sidewall 113 is perpendicular to described front sheet material, and one end that described second sidewall 113 connects with the second face of described mobile terminal 10 is provided with the one second convex eaves 1131 that the direction, first side 13 to described mobile terminal 10 extends.Be connected by cambered surface or corner between described bottom surface 11 with the first convex eaves 1111, between described bottom surface 11 with the second sidewall 113 and between described second sidewall 113 and the second convex eaves 1131; This cambered surface can be arc surface, also can be the level and smooth cambered surface of other types; This corner can be stepped ramp type corner, also can be the corner of other types, not do particular determination in this example embodiment to it.
Corresponding with described storage tank 11, the Full-automatic turn-over type camera assembly 20 provided in this example embodiment removes first end and is provided with a lens assembly 204, second end also can be fitted with the bottom surface 111 of described storage tank 11, and photo-sensitive cell corresponding with described lens assembly 204 in described camera assembly 20 can be located in described second end.Camera assembly 20 also comprises above-mentioned rotating shaft 201, and described rotating shaft 201 can be erected in described installing hole 114.
Shown in figure 1 and Fig. 4, compare when the bottom surface of described storage tank is set to a pure-surface, for realizing inevitably there is a gap between upset camera assembly and mobile terminal first side, by optimizing the shape of the bottom surface 111 of described storage tank 11 in this example embodiment, and corresponding optimization is done to described Full-automatic turn-over type camera assembly 20, thus fitting tightly of camera assembly 20 and mobile terminal 10 can be realized, namely described camera assembly 20 can be fitted with the intersecting lens near seamless of described first convex eaves 1111 and first side 12, avoid producing above-mentioned gap.So, on the one hand dust or other foreign material can be avoided to enter described mobile terminal 10, the integrally-built unification of described mobile terminal 10 and smooth can be ensured on the other hand.
Shown in figure 5, in this example embodiment, described camera assembly 20 can have the cambered surface 202 with the junction adaptation of described bottom surface 111 and described first convex eaves 1111 and described second sidewall 113, to ensure the storage tank 11 described in described camera assembly 20 second end non-contravention when described camera assembly 20 overturns.Or shown in figure 6, the position of the junction of the corresponding described bottom surface 111 of described camera assembly 20 second end and described first convex eaves 1111 and described second sidewall 113 can be provided with unfilled corner 203, to ensure the storage tank 11 described in described camera assembly 20 second end non-contravention when described camera assembly 20 overturns.Certainly, the shape of described camera assembly 20 second end can also have other forms of implementation, does not enumerate at this.
As shown in background technology, in prior art, also have in part mobile terminal and be provided with convertible camera assembly.For the N3 type mobile phone that Guangdong OPPO Mobile Communications Co., Ltd. produces, the part entirety at the top of described mobile terminal hollows out by it, and arranges rotating shaft at the middle part of camera assembly, and described rotating shaft is erected at the above-mentioned part hollowed out.But, because its needs increase opening on the sheet material of front, the bulk strength of front sheet material therefore may be affected; In addition, the assembly such as such as receiver, optical pickocff etc. arranged in described mobile terminal front is after described camera assembly upset, the mobile terminal back side can be driven accordingly, and then be not easy to realize the corresponding function of said modules, such as, cannot receive calls etc.In addition, in actual use, though do not start drive camera assembly upset motor, this camera assembly also may overturn under less pressure, namely camera assembly may occur anticipation outside upset and affect Consumer's Experience.
Therefore, please continue to refer to shown in Fig. 3 to Fig. 6, installing hole 114 described in this example embodiment is located at described the first side wall 112 one end away from described second sidewall 113, and namely the rotating shaft 201 of described camera assembly 20 is positioned at its one end closer to described mobile terminal 10 top.So, the space taken needed on described mobile terminal 10 when described camera assembly 20 overturns can be reduced on the one hand, the lens assembly 204 of described camera assembly 20 can be made to be in higher position thus described mobile terminal 10 can be avoided to affect lens assembly 204 to find a view on the other hand.The more important thing is, unlike the middle part in the prior art rotating shaft of camera assembly being located at described camera assembly, but make the rotating shaft 201 of camera assembly 20 be positioned at its one end closer to described mobile terminal 10 top, can avoid on the sheet material of described front, increasing opening and affecting its intensity on the one hand, can avoid on the other hand after described camera assembly 20 overturns, the assembly driving such as receiver, optical pickocff etc. to be originally positioned at mobile terminal 10 front is turned to mobile terminal 10 back side, and then is not easy to realize the corresponding function of said modules.
Further, the position that the axle center of rotating shaft 201 described in this example embodiment is arranged also needs to ensure before described camera assembly 20 completes upset, the first convex eaves 1111 of described storage tank 11 can not block in the front of described camera assembly 20.Such as please continue to refer to shown in Fig. 4, the axle center of rotating shaft 201 described in this example embodiment is preferably the half of described first convex eaves 1111 top to described camera assembly 20 first end distance H1 to the distance H2 of described camera assembly 20 first end.Certainly, those skilled in the art also can be arranged on other positions as required, do not do particular determination in this example embodiment to this.
In addition, described mobile terminal 10 also comprises a drived control mechanism.This drived control mechanism is connected with described rotating shaft 201, thus described camera assembly 20 can be driven to overturn by described rotating shaft 201 or by described camera assembly 20 locking.The mechanism of drived control described in this example embodiment comprises a motor, and when described motor running, described drived control mechanism drives described camera assembly 20 to overturn, and in all the other moment, described drived control mechanism is by described camera assembly 20 locking.Thus avoid the upset outside camera assembly 20 appearance anticipation and affect Consumer's Experience.
Specifically, please refer to shown in Fig. 7, drived control mechanism described in this example embodiment also comprises one first gear 141, driving rack 142 and a push-pull mechanism except comprising motor (not shown).Wherein, described first gear 141 is coaxially fixedly connected with described rotating shaft 201 one end; Described driving rack 142 engages with described first gear 141; Can be directly engage between described driving rack 142 with described first gear 141, also can be by engagement such as other assembly such as travelling gear 143 grade, reduces its space hold to balance the distance of described driving rack 142 motion.In addition, control precision when described camera assembly 20 overturns can be adjusted by the number of teeth and gearratio arranging described first gear 141 and driving rack 142, such as, the control precision when number of teeth and gearratio by arranging described first gear 141 and driving rack 142 make described camera assembly 20 overturn is 1 degree etc.Described push-pull mechanism is connected with described driving rack 142 and described motor, for driving rack 142 described in push-and-pull under described motor effect.In addition, other parameters such as the diameter of described first gear 141 and driving rack 142 and intensity also can specifically be selected according to actual needs, do not make particular determination at this.
Please continue to refer to Fig. 7, in this example embodiment, described pushing mechanism can comprise threaded post 144,1 second gear 145 and one a 3rd gear (not shown).Wherein, described threaded post 144 is fixedly connected with described driving rack 142 and axially in described driving rack 142 direction of motion.Described second gear 145 is set in described threaded post 144, and its inner ring is provided with the block part in an embedding described threaded post 144 thread surface.Described 3rd gear engages with described second gear 145 and is fixedly connected with the output shaft of described motor.Described 3rd gear can directly engage with described second gear 145, also can be engaged with described second gear 145 by a train of reduction gears.After described motor starting, the rotation of the second gear 145 described in described 3rd gear driven, the block part of described second gear 145 inner ring promotes it by described threaded post 144 thread surface and advances or retreat, and then driving rack 142 described in push-and-pull drives the upset of described camera assembly 20.
Shown in figure 8, the block part of the second gear 145 inner ring described in this example embodiment can be the screw thread with described threaded post 144 thread surface adaptation.Certainly, it is easily understood that it also can be protuberance consistent with described threaded post 144 thread surface angle of inclination etc.Because its implementation is more, do not enumerate at this.In addition, can also be that described threaded post 144 surface does not arrange screw thread, and a block part is set, accordingly, described second gear 145 inner ring is provided with screw thread, described block part embeds screw thread of described second gear 145 inner ring setting etc., therefore, is not limited in this example embodiment with the above-mentioned execution mode exemplified.
In addition, mobile terminal 10 described in this example embodiment also comprises a computing processing sector.This computing processing sector and described motor and camera assembly 20 are electrically connected, for controlling the startup of described motor and running and for receiving the data that described camera assembly 20 obtains.This computing processing sector is preferably the arithmetic processor of described mobile terminal 10 self, thus can accept the instruction of user and control the startup of described motor and running.Electric connection between this computing processing sector and described camera assembly 20 can be realized by wired mode, also can connect to wirelessly.Such as with reference to shown in figure 7, the photo-sensitive cell of described camera assembly 20 is connected with a flexible electrical route 13, thus receives the instruction of described computing processing sector transmission by this flexible electrical route 13 or transmit data by this flexible electrical route 13 to described computing processing sector.In this example embodiment, one end that described rotating shaft 201 does not connect described first gear 141 offers a cable hole, flexible electrical route 13 one end is electrically connected by described cable hole and described camera assembly 20, and the other end and described computing processing sector are electrically connected.Again such as, in described lens assembly 204 and mobile terminal 10, be equipped with wireless communication chips, transfer of data between lens assembly 204 and mobile terminal 10 etc. can be realized by this wireless communication chips.
In sum, in above-mentioned example embodiment of the present disclosure, by offering storage tank at mobile terminal back and being optimized its shape, Full-automatic turn-over type camera assembly with described storage tank shape adaptation is provided simultaneously, and control to improve to the setting of camera assembly rotating shaft and the upset of camera assembly, thus better can realize the upset of camera assembly, perfectly realize autodyning or video calling, reach the effect of one-object-many-purposes, save the production cost of mobile terminal; In addition, the disclosure also avoids weakening of the mobile terminal performance brought owing to realizing camera assembly upset, thus improves Consumer's Experience.
The disclosure is described by above-mentioned related embodiment, but above-described embodiment is only enforcement example of the present disclosure.Must it is noted that the embodiment disclosed limit the scope of the present disclosure.On the contrary, not departing from the change and retouching done in spirit and scope of the present disclosure, scope of patent protection of the present disclosure is all belonged to.
Claims (10)
1. a mobile terminal, has the front sheet material being positioned at its first surface; It is characterized in that, comprising:
One storage tank, is located at one end of second that described mobile terminal is relative with described first surface, is provided with the camera assembly of rotating shaft for accommodating one; Described storage tank comprises:
One bottom surface, is parallel to described front sheet material and one end that described bottom surface connects with described mobile terminal first side is provided with the one first convex eaves extended to described mobile terminal second direction;
Two the first side walls, are oppositely arranged and connect with described plane perpendicular, and the first side wall described in two is respectively equipped with one for setting up the installing hole of described rotating shaft; And,
One second sidewall, perpendicular to described front sheet material and one end that described second sidewall connects with described mobile terminal second face is provided with the one second convex eaves extended to direction, described mobile terminal first side; Described bottom surface is connected by cambered surface or corner with between the first convex eaves and the second sidewall and between described second sidewall and the second convex eaves; And,
One drived control mechanism, is connected with described rotating shaft, for driven by described rotating shaft described camera assembly overturn or by described camera assembly locking; Described drived control mechanism comprises a motor; When described motor running, described drived control mechanism drives described camera assembly to overturn, and in all the other moment, described drived control mechanism is by described camera assembly locking.
2. mobile terminal according to claim 1, is characterized in that, described drived control mechanism also comprises:
One first gear, is coaxially fixedly connected with described rotating shaft one end;
One driving rack, with described first gears meshing;
One push-pull mechanism, is connected with described driving rack and described motor, for driving rack described in push-and-pull under described motor effect.
3. mobile terminal according to claim 2, is characterized in that, described pushing mechanism comprises:
One threaded post, is fixedly connected with described driving rack and axially in the described driving rack direction of motion;
One second gear, is set in described threaded post and its inner ring is provided with the block part in the described threaded post thread surface of an embedding;
One the 3rd gear, is fixedly connected with the output shaft of described motor with described second gears meshing.
4. mobile terminal according to claim 3, is characterized in that, described driving rack by least one travelling gear and described first gears meshing and/or described 3rd gear by a train of reduction gears and described second gears meshing.
5. the mobile terminal according to claim 1-4 any one, is characterized in that, described installing hole is located at described the first side wall one end away from described second sidewall.
6. the mobile terminal according to claim 2-4 any one, is characterized in that, described mobile terminal also comprises:
One computing processing sector, is electrically connected with described motor and camera assembly, for controlling the startup of described motor and running and for receiving the data that described camera assembly obtains;
One end that described rotating shaft does not connect described first gear offers a cable hole, and a flexible electrical route one end is electrically connected by described cable hole and described camera assembly, and the other end and described computing processing sector are electrically connected.
7. a Full-automatic turn-over type camera assembly, is applied to the mobile terminal as described in claim 1-6 any one; It is characterized in that, described camera assembly first end is provided with a lens assembly, and the second end can be fitted with described storage tank bottom surface, and described rotating shaft is fixedly connected with described camera assembly.
8. Full-automatic turn-over type camera assembly according to claim 7, it is characterized in that, described camera assembly has the cambered surface with the junction adaptation of described bottom surface and the first convex eaves and the second sidewall, or the position of the junction of the corresponding described bottom surface of described camera assembly and the first convex eaves and the second sidewall is provided with unfilled corner, to ensure the storage tank described in described camera assembly second end non-contravention when described camera assembly upset.
9. the Full-automatic turn-over type camera assembly according to claim 7 or 8, it is characterized in that, the position that described rotating shaft axle center is arranged ensures that the first side of described camera assembly and described mobile terminal when described camera assembly does not overturn is seamless applying and overturn lens assembly described in rear described first convex eaves non-contravention at described camera assembly.
10. Full-automatic turn-over type camera assembly according to claim 9, is characterized in that, described rotating shaft axle center is the half of described first convex eaves top to described camera assembly first end distance to the distance of described camera assembly first end.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410745714.5A CN104469114A (en) | 2014-12-08 | 2014-12-08 | Mobile terminal and full-automatic turnover camera shooting assembly |
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| CN201410745714.5A CN104469114A (en) | 2014-12-08 | 2014-12-08 | Mobile terminal and full-automatic turnover camera shooting assembly |
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| CN104469114A true CN104469114A (en) | 2015-03-25 |
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