CN204721431U - Telescopic spinning camera - Google Patents

Abstract

The disclosure provides a kind of telescopic spinning camera.This telescopic spinning camera comprises: moving conduit, and be opened on a terminal equipment, its two ends are provided with opening; Coupling assembling, be located in described moving conduit, it is connected by spin mechanics with camera; Spin mechanics, for after described camera stretches out described moving conduit, rotates described camera to a predetermined angle automatically; Controlling organization, the assembly formed with described coupling assembling and camera is connected, and moves along described moving conduit for controlling described coupling assembling, and described camera stretches out and described moving conduit of retracting with described coupling assembling motion.Due to without the need to user's manual rotation camera, decrease the operating procedure of user, therefore significantly can promote Consumer's Experience.

Description

Telescopic spinning camera

Technical field

The disclosure relates to IMAQ field, particularly relates to a kind of telescopic spinning camera.

Background technology

Along with the progress of science and technology, the development of society, the demand of people to shooting is also more and more higher, and be not confined to take to other people, the product having a lot of people all to wish oneself to buy can realize Self-timer; Meanwhile, along with the extensive use being 3G and 4G mechanics of communication, video calling becomes more and more general.But at present, in prior art, the camera of portable set is generally back-illuminated type, nearly all can not realize autodyning.

In order to reach good auto heterodyne or video calling effect, can front-facing camera be set, but greatly can increases the cost of product so on the one hand, on the other hand, although product can realize autodyning, because the usual pixel of front-facing camera is not high, shooting effect can not make people satisfied.

In prior art, although there is camera can eject from portable set, and under the operation of user, rotary taking direction, because it needs artificial rotating camera, adds the operating procedure of user.

Utility model content

For some or all of problem of the prior art, the disclosure provides one after extending equipment terminal, can be automatically rotated to the telescopic spinning camera of predetermined angle.

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 an aspect of the present disclosure, a kind of telescopic spinning camera, comprising:

Moving conduit, be opened on a terminal equipment, its two ends are provided with opening;

Coupling assembling, be located in described moving conduit, it is connected by spin mechanics with camera;

Spin mechanics, for after described camera stretches out described moving conduit, rotates described camera to a predetermined angle automatically;

Controlling organization, the assembly formed with described coupling assembling and camera is connected, and moves along described moving conduit for controlling described coupling assembling, and described camera stretches out and described moving conduit of retracting with described coupling assembling motion.

In an embodiment of the present disclosure, described spin mechanics comprises:

Torsion spring, its first reverse arm is connected with camera, the second reverse arm is connected with described coupling assembling.

In an embodiment of the present disclosure, described controlling organization comprises:

The assembly ordering about camera and coupling assembling formation ejects the first elastic component;

The control post be fixedly connected with described camera, its cylinder axially offers groove along it;

Be located at the first position retaining plate in described groove, its first surface stretches out direction towards camera; And

Can insert along described control post radial direction and leave the lockable mechanism of described groove, the described control post of described lockable mechanism extruding contact;

Described camera contracting is when described moving conduit, and described first elastic component is in compressive state, and described lockable mechanism inserts described groove and is stuck in described first position retaining plate first surface; After described lockable mechanism departs from from described first position retaining plate first surface, the elastic force of the first elastic component makes described camera eject moving conduit.

In an embodiment of the present disclosure, described first position retaining plate second face is provided with acutangulate first guiding surface with camera ejection direction;

Described lockable mechanism comprises lock piece and the second elastic component;

Described lock piece is corresponding towards one end of described control post is provided with the second guiding surface with described first guiding surface adaptation;

In the process of described camera retraction movement passage, described second guiding surface slides on described first guiding surface, makes described second elastic component deformation, until described first guiding surface departs from described second guiding surface; Described camera continues to retract, and the elastic force of described second elastic component makes described lock piece insert described groove and is stuck in described first position retaining plate first surface.

In an embodiment of the present disclosure, the cross section of described first position retaining plate is less than the cross section of described groove, to guarantee that, in described camera ejection process, described lock piece can depart from described first position retaining plate but not depart from described groove;

Described control post axially extends away from one end of described coupling assembling the extending column that but diameter similar to described control post shapes be less than described control post, after described camera has stretched out, described lock piece departs from described groove, and abuts with the extending column of described control post;

Joint face between described extending column cylinder and described lock post cylinder is the 3rd guiding surface with described second guiding surface adaptation.

In an embodiment of the present disclosure, the latch that described lock piece comprises lock post and is connected with described lock post, described second guiding surface is located on described latch;

Described second elastic component comprises the second spring be set in described lock post.

In an embodiment of the present disclosure, described controlling organization also comprises the joystick that first end is connected with described lockable mechanism, and the described joystick other end extends described terminal equipment; When the part that described joystick extends described terminal equipment is pressed or stirs, described lockable mechanism departs from from described first position retaining plate first surface.

In an embodiment of the present disclosure, described lock piece comprises the latch be connected with described joystick, and the part that described joystick is extending described terminal equipment is connected with an end cap; Described second elastic component comprises the disc spring at the connecting portion place being arranged on described joystick and described end cap.

In an embodiment of the present disclosure, the first reverse arm of described torsion spring is connected with described camera by described control post.

In an embodiment of the present disclosure, the cross section of described control post is that radian is not less than 270 degree fan-shaped; Two rectangular surfaces in described control post cylinder form the two sides of described groove.

In an embodiment of the present disclosure, described groove is provided with the second position retaining plate near one end of described coupling assembling; Described second position retaining plate is for limiting the anglec of rotation after camera ejection.

In an embodiment of the present disclosure, when described camera does not rotate, the first side wall of described groove is parallel with the direction of insertion of described lockable mechanism; When described camera cycle initial angle, described lockable mechanism inserts described groove, and a described lockable mechanism side parallel with its direction of insertion abuts the first side wall of described groove, rotates to prevent described camera.

In an embodiment of the present disclosure, described moving conduit sidewall is provided with the first chute along described camera telescopic direction, and on described coupling assembling, corresponding being provided with is limited to the interior slide block moved of described first chute.

In an embodiment of the present disclosure, described moving conduit inwall is provided with ball; Correspondingly on the outer wall of described coupling assembling and/or camera be provided with the second chute with described ball adaptation; In described camera telescopic process, described ball and described second chute Structure deformation.

In an embodiment of the present disclosure, the outer wall of described coupling assembling is provided with ball; Correspondingly on the inwall of described moving conduit be provided with the second chute with described ball adaptation; In described camera telescopic process, described ball and described second chute Structure deformation.

In an embodiment of the present disclosure, described moving conduit is provided with a camera lens mouth, the size of described camera lens mouth can ensure the camera lens place one side spilling described camera when described camera is retracted in described moving conduit just.

In an embodiment of the present disclosure, the thickness of described coupling assembling is less than the thickness of described camera, and the thickness difference between described coupling assembling and described camera equals the thickness that described moving conduit is provided with the one side of described camera lens mouth.

In an embodiment of the present disclosure, described first elastic component comprises the guide post be connected with described coupling assembling and the first spring be set on described guide post, and described first spring one end contacts with described coupling assembling.

In an embodiment of the present disclosure, described first elastic component comprises the guide post be coaxially connected with described control post and the first spring be set on described guide post.

In an embodiment of the present disclosure, one end fixed cover of the connection of described guide post and described control post is provided with a pad, described first spring and described pad contacts.

In an embodiment of the present disclosure, the diameter of described guide post and described first spring is less than the diameter of described control post, and described first spring contacts with described control post.

In an embodiment of the present disclosure, described control post is connected by binding post and camera;

Described coupling assembling is fixed with the wiring cylinder be set on described binding post;

Described binding post outer wall is provided with the first Wiring area be electrically connected with described camera;

Correspondingly on described wiring cylinder inwall be provided with the second Wiring area with described first Wiring area adaptation;

At least described camera rotate start before and after rotating and terminating, described first Wiring area and the second Wiring area are electrically connected.

In an embodiment of the present disclosure, the second reverse arm of described torsion spring is connected with described wiring cylinder.

In an embodiment of the present disclosure, between described binding post outer wall and described wiring cylinder outer wall, be provided with the position limiting structure that cooperatively interacts;

Described position limiting structure is for limiting the angle of described camera spinning.

In an embodiment of the present disclosure, described coupling assembling one outer wall is provided with the 3rd Wiring area; Described moving conduit is provided with the 4th Wiring area and the 5th Wiring area on the inwall of described 3rd Wiring area; Or,

Described moving conduit one inwall is provided with the 3rd Wiring area; Described coupling assembling is provided with the 4th Wiring area and the 5th Wiring area on the outer wall of described 3rd Wiring area;

After described camera is retracted, described 3rd Wiring area and described 4th Wiring area in electrical contact; After described camera ejects, described 3rd Wiring area and described 5th Wiring area in electrical contact.

In an embodiment of the present disclosure, when described 3rd Wiring area, described 4th Wiring area and described 5th Wiring area and described camera are retracted in described moving conduit, the camera lens direction of described camera is vertical.

In an embodiment of the present disclosure, the one side that described coupling assembling is connected with described camera is provided with the 6th Wiring area and the 7th Wiring area; The one side that described camera is connected with described coupling assembling is provided with the 8th Wiring area; Or,

Described camera and the one side be connected described in coupling assembling are provided with the 6th Wiring area and the 7th Wiring area; The one side that described coupling assembling is connected with described camera is provided with the 8th Wiring area.

When described camera does not rotate, described 6th Wiring area and described 8th Wiring area in electrical contact; After described camera rotates described predetermined angle, described 7th Wiring area and described 8th Wiring area in electrical contact.

In an embodiment of the present disclosure, described predetermined angle is 180 degree, and described 6th Wiring area and described 7th Wiring area distribute about the junction Central Symmetry of described camera and described coupling assembling.

In an embodiment of the present disclosure, the second reverse arm of described torsion spring is connected with described control post.

The telescopic spinning camera that embodiment of the present disclosure provides, by arranging controlling organization, controlling organization is utilized to realize camera stretching out and retracting from moving conduit, by arranging spin mechanics between camera and coupling assembling, utilize spin mechanics after described camera stretches out described moving conduit, automatically described camera is rotated to a predetermined angle.Compared to prior art, on the one hand, the camera being fixed on terminal equipment inside can be made to eject, and be automatically rotated to predetermined angle, perfect realization is autodyned or video calling, reaches the effect of one-object-many-purposes, thus has greatly saved the production cost of terminal equipment; On the other hand, due to without the need to user's manual rotation camera, decrease the operating procedure of user, therefore significantly can promote 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 is the structural representation of the moving conduit of telescopic rotatable camera in the disclosure one exemplary embodiment;

Fig. 2 is the decomposition texture schematic diagram of telescopic rotatable camera in the disclosure one exemplary embodiment;

Fig. 3 is the control structure schematic diagram of telescopic rotatable camera in another exemplary embodiment of the disclosure;

Fig. 4 is the structural representation of the control post of telescopic rotatable camera in the disclosure one exemplary embodiment;

Fig. 5 is the structural representation of the moving conduit of telescopic rotatable camera in the another kind of exemplary embodiment of the disclosure;

Fig. 6 is the moving conduit of telescopic rotatable camera and the structural representation of camera in the another kind of exemplary embodiment of the disclosure;

Fig. 7 is the structural representation of the coupling assembling of telescopic rotatable camera in the another kind of exemplary embodiment of the disclosure.

Description of reference numerals:

10 cameras

11 camera lenses

12 second chutes

18 the 8th Wiring areas

21 coupling assemblings

23 the 3rd Wiring areas

22 wiring cylinders

24 slide blocks

26 the 6th Wiring areas

27 the 7th Wiring areas

31 control post

311 extending columns

32 grooves

33 first position retaining plates

34 second position retaining plates

35 lockable mechanisms

351 latch

352 lock post

353 second springs

36 first elastic components

361 guide posts

362 first springs

363 pads

38 binding posts

39 joysticks

41 moving conduits

42 first chutes

43 camera lens mouths

44 the 4th Wiring areas

45 the 5th Wiring areas

50 torsion springs

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.

exemplary embodiment one

The telescopic spinning camera that the disclosure provides mainly comprises: moving conduit, coupling assembling, controlling organization, spin mechanics and camera.Wherein, moving conduit is arranged on the terminal device, and its two ends are provided with opening.This terminal equipment can be the mobile terminals such as such as mobile phone, panel computer, palmtop PC.

As shown in Fig. 1-Fig. 2, it is inner that coupling assembling 21 is arranged on moving conduit 41, the outer wall of coupling assembling 21 and camera 10 and the inwall of described moving conduit 41 are fitted or close, thus can avoid relatively rotating between coupling assembling 21 and moving conduit 41, and camera 10 is avoided to relatively rotate before stretching out moving conduit 41 completely and between moving conduit 41.Further, the first end of coupling assembling 21 is connected by spin mechanics with camera 10.The assembly that controlling organization is formed with described coupling assembling 21 and camera 10 is connected, and moves along described moving conduit 41 for controlling described coupling assembling 21, and described camera 10 moves with described coupling assembling 21 and stretches out and described moving conduit 41 of retracting.Described spin mechanics is used for after described camera 10 stretches out described moving conduit 41, automatically rotates described camera 10 to a predetermined angle.

Utilize above-mentioned controlling organization and spin mechanics, the post-positioned pick-up head 10 being fixed on terminal equipment inside can be made to eject, and be automatically rotated to predetermined angle, and then perfectly realize autodyning or video calling, reach the effect of one-object-many-purposes, thus greatly save the production cost of terminal equipment; On the other hand, due to without the need to user's manual rotation camera 10, decrease the operating procedure of user, therefore significantly can promote Consumer's Experience.

About above-mentioned spin mechanics, exemplary, described spin mechanics can comprise a torsion spring 50, and the first reverse arm of described torsion spring 50 is connected with camera 10, and the second reverse arm is connected with described coupling assembling 21.Certainly, this spin mechanics also can comprise torsion bar or other can the assembly of spinning, then this does not do particular determination.In following execution mode, the first reverse arm of described torsion spring 50 can be connected with described camera 10 by following control post 31, and the second reverse arm of described torsion spring 50 is connected with the wiring cylinder 22 of following coupling assembling 21.

In an embodiment of the present disclosure, described controlling organization comprises the first elastic component 36, controls the assembly such as post 31, first position retaining plate 33 and lockable mechanism 35; Described first elastic component 36 is connected with described coupling assembling 21, and described control post 31 is fixedly connected with described camera 10, and the cylinder of described control post 31 axially offers groove 32 along it; Described first position retaining plate 33 is located within described groove 32, and the first surface of the first position retaining plate 33 stretches out direction towards camera 10, and second facing to camera 10 retracted orientation; Described lockable mechanism 35 can insert along described control post 31 radial direction and leave described groove 32.

Shown in Fig. 4, when described camera 10 does not rotate, the first side wall of described groove 32 is parallel with the direction of insertion of described lockable mechanism 35; When described camera 10 cycle initial angle, described lockable mechanism 35 inserts described groove 32, and described lockable mechanism 35 side parallel with its direction of insertion abuts the first side wall of described groove 32, rotates to prevent described camera 10.

Described camera 10 contracts when described moving conduit 41, described first elastic component 36 is in compressive state, described lockable mechanism 35 inserts described groove 32 and is stuck in described first position retaining plate 33 first surface, camera 10 is by locking, in addition, the side that lockable mechanism 35 is parallel with its direction of insertion abuts the first side wall of described groove 32.When under the External Force Acting continued, described lockable mechanism 35 departs from from described first position retaining plate 33 first surface, camera 10 is ejected moving conduit 41 by coupling assembling 21 by the first elastic component 36, in this process, although lockable mechanism 35 has departed from described groove 32, lockable mechanism 35 still with the contraposition of described groove 32.After camera 10 stretches out moving conduit 41 completely, the elastic force of described torsion spring 50 is released, thus drive camera 10 and control post 31 to rotate predetermined angle relative to described coupling assembling 21, the lockable mechanism 35 departing from described groove 32 misplaces with described groove 32, and now latch 351 is propped up by control post 31.After camera 10 is finished using, by predetermined angle described in its counter-rotating, described lockable mechanism 35 and the contraposition of described groove 32, and under effect, insert described groove 32 at described second elastic component, the side that now lockable mechanism 35 is parallel with its direction of insertion abuts the first side wall of described groove 32, even if also can not rotate because of the effect of torsion spring 50 after removing external force, therefore can press described camera 10 and retract.When camera 10 is retracted to predeterminated position, described lockable mechanism 35 is inserted described groove 32 and is stuck in described first position retaining plate 33 first surface, thus by camera 10 locking again.

The first elastic component 36 in the present embodiment mainly comprises the first spring 362, and certainly, the first elastic component 36 also can be other elastomeric elements; In order to avoid axial bending appears in the first spring 362, affect its mechanical property, shown in figure 2, the first elastic component 36 in the present embodiment also comprises guide post 361; First spring 362 is set on guide post 361.And, device end is provided with the guide hole (not shown) can come in and gone out for guide post 361 first end, the diameter of guide hole is substantially identical with the diameter of guide post 361, guide post 361 second end can be connected with coupling assembling 21, first spring 362 one end and described guide hole EDGE CONTACT, the other end contacts with coupling assembling 21.Or, shown in figure 3, guide post 361 second end also coaxially can be connected with control post 31, lead 361 can be integral type structure with controlling post 31, also absolute construction can be respectively, can fix sheathed pad 363, first spring 362 one end and described guide hole EDGE CONTACT at guide post 361 second end, the other end contacts with pad 363; Or, guide post 361 second end coaxially can be connected with control post 31, the diameter of guide post 361 and the first spring 362 is less than the diameter controlling post 31, lead 361 can be integral type structure with controlling post 31, also absolute construction can be respectively, first spring 362 one end and described guide hole EDGE CONTACT, the other end contacts with control post 31.When guide post 361 second end is connected with coupling assembling 21, the length that effectively can reduce telescopic spinning camera takies, and when guide post 361 second end is coaxially connected with control post 31, the width that effectively can reduce telescopic spinning camera takies.The quantity of the first elastic component 36 can be one can be also other any amount, does not do particular determination at this.

Further, described first position retaining plate 33 second face is provided with and acutangulate first guiding surface of camera 10 ejection direction (such as 30 degree, 45 degree, 60 degree etc.); The second elastic component that described lockable mechanism 35 comprises lock piece and is connected with described lock piece; Described lock piece is corresponding towards one end of described control post 31 is provided with the second guiding surface with described first guiding surface adaptation.

In the process of described camera 10 retraction movement passage 41, described second guiding surface slides on described first guiding surface, under the squeezing action of described first guiding surface, make described second elastic component compression, until described first guiding surface departs from described second guiding surface; Described camera 10 continues to retract, and described lock piece is sprung into described groove 32 and is stuck in described first position retaining plate 33 first surface by described second elastic component.

In addition, can also be as shown in Figure 4, in an embodiment of the present disclosure, the cross section of described first position retaining plate 33 is less than the cross section of described groove 32, after the range of movement that lockable mechanism 35 is rationally set, can guarantee that, in described camera 10 ejection process, described lockable mechanism 35 can depart from described first position retaining plate 33 but not depart from described groove 32; And then can guarantee in camera 10 ejection process, described camera 10 and control post 31 do not rotate relative to described coupling assembling 21.

In addition, as shown in Figure 4, in an embodiment of the present disclosure, described control post 31 axially extends away from one end of described coupling assembling 21 extending column 311 that but diameter similar to described control post 31 shape be less than described control post 31, specifically, when described latch 352 is in the position under disengaging first position retaining plate 33 state, when namely latch is by External Force Acting, the groove 32 on extending column 311 does not contact with described latch 352; And the joint face between described extending column 311 cylinder and described lock post 352 cylinder is the 3rd guiding surface with described second guiding surface adaptation.

Like this, on the one hand, after described camera 10 has stretched out, described lock piece can depart from described groove 32; Lockable mechanism 35 after the described groove 32 of disengaging, still with controls the extending column 311 that post 31 connects and contacts, latch 351 is extended post 311 and props up, can conveniently before described camera 10 of retracting, the contraposition of described groove 32 and lockable mechanism 35.On the other hand, by being set to by the joint face between extending column 311 cylinder and described lock post 352 cylinder, with the 3rd guiding surface of described second guiding surface adaptation, the length of extending column 311 can be reduced, and then reduce space hold.

Further, as as shown in Fig. 2 and Fig. 4, the latch 351 that described lock piece comprises lock post 352 and is connected with described lock post 352, the cross section of described latch 351 is greater than the cross section of described lock post 352, and described second guiding surface is located on described latch 351; Described second elastic component comprises the second spring 353 be set in described lock post 352, and described second spring 353 one end abuts with described latch 351, and the other end abuts with a certain fixed structure of device end.

Conveniently handle described lockable mechanism 35, described controlling organization also comprises the joystick 39 (coupling part is not shown) be connected with described lockable mechanism 35, and described one end joystick 39 extends described terminal equipment; When the part that described joystick 39 extends described terminal equipment is pressed or stirs, described second spring 353 is compressed, and described lockable mechanism 35 departs from from described first position retaining plate 33 first surface.The part that described joystick 39 stretches out described terminal equipment preferably lays respectively at two sides of device end with the ejection direction of described camera 10, thus avoids the action of manipulation bar 39 and camera 10 to eject or retract action interferes with each other.In addition, as shown in Figure 2, conveniently press, the part can also stretching out described terminal equipment at joystick 39 is provided with end cap, and the second spring 353, except realizing the control of the motion to latch 351, also can make the automatic spring of the end cap pressed.Shown in figure 3, the second elastic component also can be the disc spring being arranged on end cap and joystick 39 connecting portion place, by this disc spring, can realize the control of the motion to latch 351 equally, and the automatic spring of the end cap pressed.Certainly, conveniently stir, the part also can stretching out described terminal equipment at joystick 39 is provided with plectrum etc.

As shown in Fig. 2 to Fig. 4, in an embodiment of the present disclosure, the cross section of described control post 31 is that radian is not less than the fan-shaped of 270 degree (equaling 270 degree in an embodiment); Two rectangular surfaces in described control post 31 cylinder form the two sides of described groove 32.In addition, the second position retaining plate 34 is provided with at described groove 32 near one end of described coupling assembling 21; Described second position retaining plate 34 is for limiting the anglec of rotation after camera 10 ejection, and the second position retaining plate 34 prevents camera 10 from rotating excessively by abutting realization with the fixed stop be arranged on coupling assembling 21.

As shown in fig. 1, in an embodiment of the present disclosure, the sidewall of moving conduit 41 can be provided with the first chute 42, and the length direction of the first chute 42 is consistent with the direction of moving conduit 41, namely identical with camera 10 ejection direction; Further, corresponding with above-mentioned first chute 42, coupling assembling 21 can be provided with and be limited to motion in the first chute 42 and the slide block 24 consistent with camera 10 direction of motion, the width of slide block 24 is identical with the first chute 42 or more smaller than the width of the first chute 42.By the first chute 42 and slide block 24, can guide effect be played on the one hand, on the other hand, by the length of the first chute 42 can be arranged, can the distance that camera 10 stretches out moving conduit 41 be limited.

In order to the image information making camera 10 gather is passed to arithmetic processor and the display floater of terminal equipment, as shown in Figure 2, in an embodiment of the present disclosure, described control post 31 axially extends a binding post 38 near one end of described coupling assembling 21; Described coupling assembling 21 is fixed with the wiring cylinder 22 be set on described binding post 38; Described binding post 38 outer wall is provided with the first Wiring area be electrically connected with described camera 10; Correspondingly on described wiring cylinder 22 inwall be provided with the second Wiring area with described first Wiring area adaptation; At least described camera 10 rotate start before and after rotating and terminating, described first Wiring area and the second Wiring area are electrically connected.Such as, only described camera 10 rotate start before and after rotating and terminating, described first Wiring area and the second Wiring area are electrically connected, or in described camera 10 rotary course, described first Wiring area and the second Wiring area are electrically connected all the time.

Described moving conduit 41 inwall is provided with the 4th Wiring area 44 and the 5th Wiring area 45; 4th territory, Wiring area 44 and the 5th territory, Wiring area 45 are all connected to arithmetic processor and the display floater of terminal equipment, described coupling assembling 21 outer wall are provided with the 3rd Wiring area 23, Wiring area the 23, three and are connected with above-mentioned second Wiring area; When camera 10 contracts at described moving conduit 41, described 3rd Wiring area 23 is docked with the 4th Wiring area 44; When camera 10 stretches out described moving conduit 41, described 3rd Wiring area 23 is docked with the 5th Wiring area 45.It should be noted that between the 4th Wiring area 44 and the 5th Wiring area 45, the shallow slot of some and described 3rd Wiring area 23 adaptation is preferably set, avoid described 3rd Wiring area 23 to be worn in motion process.

Certainly, also above-mentioned electric connection can be realized by modes such as flexible PCB connections, but the mode arranging wire area is compared to by modes such as flexible PCB connections, avoid the possibility that connecting line is impaired, therefore more reliable, thus the useful life of telescopic spinning camera can be increased.

In addition, in an embodiment of the present disclosure, the position limiting structure that cooperatively interacts can also be set between described binding post 38 outer wall and described wiring cylinder 22 outer wall; By described position limiting structure, the angle of described camera 10 spinning can be limited.This position limiting structure can be the convex key of elasticity and groove respectively, or is respectively two two guide vane end stops moved in same circumference etc.Because execution mode is more, then this does not enumerate.

exemplary embodiment two

Provide a kind of telescopic rotatable camera in this example embodiment, relative to the main improvements of telescopic rotatable camera in exemplary embodiment, it is that the structure of moving conduit and coupling assembling is different.

Shown in figure 5 and Fig. 6, except the first chute 42 can be arranged and correspondence arranges slide block 24 on coupling assembling 21 on the sidewall of moving conduit 41 in this exemplary embodiment, outside playing guide effect and the distance that camera 10 stretches out moving conduit 41 limited, ball can also be set at the inwall of moving conduit 41, second chute 12 of relative set and described ball adaptation on the outer wall of coupling assembling 21 and/or camera 10; In described camera telescopic process, ball and the second chute 12 Structure deformation.The quantity of the second chute can be one also can be multiple, it can be distributed in a sidewall of moving conduit 41, also can be distributed in multiple sidewalls of moving conduit 41, accordingly, the straight line corresponding with described second chute 42 at ball place can be one also can be multiple.On straight line described in every bar, the quantity of ball can be one or more.The type of ball can be spherical, can be also other shapes such as cylindricality, not do particular determination in this example embodiment to this.In addition, in other exemplary embodiments, also can be that ball is set at the outer wall of coupling assembling 21, second chute of relative set and described ball adaptation on the inwall of moving conduit 41, but it should be noted that in this case, ball is without the need to being arranged on camera 10.By arranging the second chute of ball and correspondence, camera 10 and the friction between coupling assembling 21 and moving conduit 41 can be reduced, the wearing and tearing of camera 10 and coupling assembling 21 can be reduced on the one hand, can make on the other hand camera 10 and coupling assembling 21 more smooth relative to the motion of moving conduit 41.

Shown in figure 6, in this example embodiment, the size of the camera lens mouth 43 that moving conduit 41 is arranged, can ensure just, when described camera 10 is retracted in described moving conduit 41, spills camera 10 camera lens 11 place one side.The one side that moving conduit 41 is provided with camera lens mouth 43 can be such as the shell on the back of the mobile terminals such as mobile phone, by rationally arranging the size of camera lens mouth 43, can ensure when camera 10 is retracted in moving conduit 41, shell on the back that is lucky and mobile terminal is spliced to form a complete plane, avoids producing gap.In this exemplary embodiment, the thickness of coupling assembling 21 is less than the thickness of camera 10, and the thickness difference between coupling assembling 21 and camera 10 preferably equals the thickness that moving conduit 41 is provided with the one side of camera lens mouth 43.

Shown in figure 5 and Fig. 7, in this exemplary embodiment, coupling assembling 21 is provided with the one side (or one side relative with this face) of camera lens mouth 43 outer wall towards moving conduit 41 is provided with the 3rd Wiring area 23, the inwall that moving conduit 41 is provided with the one side of camera lens mouth 43 is provided with the 4th Wiring area 44 and the 5th Wiring area 45; Wherein, the 4th Wiring area 44 and the 5th Wiring area 45 are all connected to arithmetic processor and the display floater of terminal equipment.When camera 10 contracts at described moving conduit 41, described 3rd Wiring area 23 is docked with the 4th Wiring area 44; When camera 10 stretches out described moving conduit 41, described 3rd Wiring area 23 is docked with the 5th Wiring area 45.Compared to exemplary embodiment one, by the 3rd Wiring area 23, the 4th Wiring area 44, the 5th Wiring area 45 are be arranged in parallel with the shell on the back of mobile terminal in this exemplary embodiment, can, while mobile terminal realizes ultrathin, ensure enough at wiring area.It should be noted that between the 4th Wiring area 44 and the 5th Wiring area 45, the shallow slot of some and described 3rd Wiring area 23 adaptation is preferably set, avoid described 3rd Wiring area 23 to be worn in motion process.Although the 4th Wiring area 44 is separated setting with the 5th Wiring area 45 in this example embodiment, in other exemplary embodiments of the present disclosure, the 4th Wiring area 44 and the 5th Wiring area 45 also can be the two ends of same larger Wiring area.In addition, in other exemplary embodiments of the present disclosure also can be moving conduit 41 an inwall (such as moving conduit 41 is provided with the one side of camera lens mouth 43 or the one side relative with this face) on be provided with the 3rd Wiring area, coupling assembling 21 is provided with the 4th Wiring area and the 5th Wiring area etc. on the outer wall of the 3rd Wiring area, in this example embodiment, particular determination is not done to this.

Shown in figure 7, in this exemplary embodiment, the one side that coupling assembling 21 is connected with camera 10 is provided with the 6th Wiring area 26 and the 7th Wiring area 27; The one side that camera 21 is connected with coupling assembling 21 is provided with the 8th Wiring area 18.Wherein, the 6th Wiring area 26 and the 7th Wiring area 217 are all electrically connected with the 3rd Wiring area 23, and the 8th Wiring area 18 is electrically connected with camera 10.When camera 10 does not rotate, the 6th Wiring area 26 and the 8th Wiring area 18 in electrical contact, rotate after predetermined angle at camera, the 7th Wiring area 27 and the 8th Wiring area 18 in electrical contact.In this example embodiment, if described predetermined angle is 180 degree, then the 7th Wiring area 27 and the 8th Wiring area 18 distribute about the junction Central Symmetry of camera 21 with coupling assembling 21; But in other exemplary embodiments of the present disclosure, the 7th Wiring area 27 and the 8th Wiring area 18 also can distribute according to other predetermined angle are corresponding.Although the 6th Wiring area 26 is separated setting with the 7th Wiring area 27 in this example embodiment, in other exemplary embodiments of the present disclosure, the 6th Wiring area 26 and the 7th Wiring area 27 also can be the two ends of same larger Wiring area.In addition, also can be that the one side that camera 10 is connected with coupling assembling 21 is provided with the 6th Wiring area and the 7th Wiring area in other exemplary embodiments of the present disclosure; The one side that coupling assembling 21 is connected with camera 10 is provided with the 8th Wiring area etc., in this example embodiment, does not do particular determination to this.By the connected mode of Wiring area in Fig. 7, then without the need to arranging wiring cylinder 22 as shown in Figure 2, using the controlling organization shown in Fig. 3, thus further simplify the structure of telescopic rotatable camera.

The telescopic rotatable camera that the disclosure provides, can be applied in the electronic product such as mobile phone, panel computer, in IMAQ, post-positioned pick-up head can be utilized to realize autodyning or video call function; The more important thing is, this camera, after ejection, can be automatically rotated to predetermined angle.

Comprehensive above-described embodiment is known, the telescopic spinning camera that embodiment of the present disclosure provides, on the one hand, the camera being fixed on terminal equipment inside can be made to eject, and be automatically rotated to predetermined angle, perfect realization is autodyned or video calling, reaches the effect of one-object-many-purposes, thus has greatly saved the production cost of terminal equipment; On the other hand, due to without the need to user's manual rotation camera, decrease the operating procedure of user, therefore significantly can promote 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 (14)

1. a telescopic spinning camera, is characterized in that, comprising:

Moving conduit, be opened on a terminal equipment, its two ends are provided with opening;

Coupling assembling, be located in described moving conduit, it is connected by spin mechanics with camera;

Spin mechanics, for after described camera stretches out described moving conduit, rotates described camera to a predetermined angle automatically;

Controlling organization, the assembly formed with described coupling assembling and camera is connected, and moves along described moving conduit for controlling described coupling assembling, and described camera stretches out and described moving conduit of retracting with described coupling assembling motion.

2. telescopic spinning camera according to claim 1, it is characterized in that, described spin mechanics comprises:

Torsion spring, its first reverse arm is connected with camera, the second reverse arm is connected with described coupling assembling.

3. telescopic spinning camera according to claim 2, it is characterized in that, described controlling organization comprises:

The assembly ordering about camera and coupling assembling formation ejects the first elastic component;

The control post be fixedly connected with described camera, its cylinder axially offers groove along it;

Be located at the first position retaining plate in described groove, its first surface stretches out direction towards camera; And

Can insert along described control post radial direction and leave the lockable mechanism of described groove, the described control post of described lockable mechanism extruding contact;

Described camera contracting is when described moving conduit, and described first elastic component is in compressive state, and described lockable mechanism inserts described groove and is stuck in described first position retaining plate first surface; After described lockable mechanism departs from from described first position retaining plate first surface, the elastic force of the first elastic component makes described camera eject moving conduit.

4. telescopic spinning camera according to claim 3, is characterized in that, described first position retaining plate second face is provided with acutangulate first guiding surface with camera ejection direction;

Described lockable mechanism comprises lock piece and the second elastic component;

Described lock piece is corresponding towards one end of described control post is provided with the second guiding surface with described first guiding surface adaptation;

In the process of described camera retraction movement passage, described second guiding surface slides on described first guiding surface, makes described second elastic component deformation, until described first guiding surface departs from described second guiding surface; Described camera continues to retract, and the elastic force of described second elastic component makes described lock piece insert described groove and is stuck in described first position retaining plate first surface.

5. telescopic spinning camera according to claim 3, is characterized in that, when described camera does not rotate, the first side wall of described groove is parallel with the direction of insertion of described lockable mechanism; When described camera cycle initial angle, described lockable mechanism inserts described groove, and a described lockable mechanism side parallel with its direction of insertion abuts the first side wall of described groove, rotates to prevent described camera.

6. telescopic spinning camera according to claim 3, is characterized in that, the first reverse arm of described torsion spring is connected with described camera by described control post.

7. telescopic spinning camera according to claim 3, it is characterized in that, described groove is provided with the second position retaining plate near one end of described coupling assembling; Described second position retaining plate is for limiting the anglec of rotation after camera ejection.

8. telescopic spinning camera according to claim 1, is characterized in that, described moving conduit sidewall is provided with the first chute along described camera telescopic direction, and on described coupling assembling, corresponding being provided with is limited to the interior slide block moved of described first chute.

9. telescopic spinning camera according to claim 1, is characterized in that, described moving conduit inwall is provided with ball; Correspondingly on the outer wall of described coupling assembling and/or camera be provided with the second chute with described ball adaptation; In described camera telescopic process, described ball and described second chute Structure deformation.

10. telescopic spinning camera according to claim 3, is characterized in that, described first elastic component comprises and described coupling assembling or the guide post be coaxially connected with described control post and the first spring be set on described guide post.

11. telescopic spinning cameras according to claim 3, it is characterized in that, described control post is connected by binding post and camera;

Described coupling assembling is fixed with the wiring cylinder be set on described binding post;

Described binding post outer wall is provided with the first Wiring area be electrically connected with described camera;

Correspondingly on described wiring cylinder inwall be provided with the second Wiring area with described first Wiring area adaptation;

At least described camera rotate start before and after rotating and terminating, described first Wiring area and the second Wiring area are electrically connected.

12. telescopic spinning cameras according to claim 11, it is characterized in that, the second reverse arm of described torsion spring is connected with described wiring cylinder.

13. telescopic spinning cameras according to claim 1, is characterized in that, described coupling assembling one outer wall is provided with the 3rd Wiring area; Described moving conduit is provided with the 4th Wiring area and the 5th Wiring area on the inwall of described 3rd Wiring area; Or,

Described moving conduit one inwall is provided with the 3rd Wiring area; Described coupling assembling is provided with the 4th Wiring area and the 5th Wiring area on the outer wall of described 3rd Wiring area;

After described camera is retracted, described 3rd Wiring area and described 4th Wiring area in electrical contact; After described camera ejects, described 3rd Wiring area and described 5th Wiring area in electrical contact.

14. telescopic spinning cameras according to claim 1, is characterized in that, the one side that described coupling assembling is connected with described camera is provided with the 6th Wiring area and the 7th Wiring area; The one side that described camera is connected with described coupling assembling is provided with the 8th Wiring area; Or,

Described camera and the one side be connected described in coupling assembling are provided with the 6th Wiring area and the 7th Wiring area; The one side that described coupling assembling is connected with described camera is provided with the 8th Wiring area;

When described camera does not rotate, described 6th Wiring area and described 8th Wiring area in electrical contact; After described camera rotates described predetermined angle, described 7th Wiring area and described 8th Wiring area in electrical contact.