CN107315305A - Camera model - Google Patents

Abstract

The present invention discloses a kind of camera model, can be made according to the camera model of one embodiment of the invention for the separately-driven multiple actuators of two camera lens modules to be shared into common magnet, can prevent from producing magnetic interference between multiple actuators accordingly.

Description

Camera model

Technical field

The present invention relates to a kind of camera model.

Background technology

Commonly used the camera model in the mobile communication terminals such as smart mobile phone, tablet personal computer and notebook computer.

Also, a kind of twin-lens for being provided with two camera lens modules is recently disclosed, this double camera is designed to simple The form that ground combines two independent camera models side by side.

Because this mode is to fragilities such as deformations, it is therefore desirable to extra reinforcing is carried out by reinforcing member, and is being incited somebody to action Move respectively in the case that the spacing between the actuator of two camera lenses is configured small, may due to magnetic field interference and in actuating Problem occurs in terms of the drive characteristic of device.

The content of the invention

It is to provide a kind of following camera model according to the purpose of one embodiment of the invention, can be prevented for dividing Magnetic interference Qu Dong not be produced between multiple actuators of two camera lens modules.

Also, it is an object of the invention to provide a kind of size that can reduce camera model, reduction manufacturing cost and carry The camera model of high productivity.

In order to solve the above problems, the present invention provides a kind of camera model, and it includes：First camera lens module and the second camera lens Module, is constituted in the way of it can be moved along optical axis direction；Shell, with inner space to house the first camera lens mould Block and second camera lens module；And actuator, including common magnet, the common magnet provides driving force and makes described the One camera lens module and second camera lens module are moved respectively along the optical axis direction.

The present invention provides a kind of camera model, and it includes：First camera lens module and the second camera lens module, with can be in shell It is interior to be constituted along the mode that optical axis direction is moved；Actuator makes first camera lens module and described there is provided driving force Two camera lens modules are moved respectively along the optical axis direction, wherein, the actuator also includes：First coil, is provided to described The exterior face of first camera lens module；Second coil, is provided to the exterior face of second camera lens module；And multiple magnets, institute State in multiple magnets magnet to arrange in the way of all facing with the first coil and second coil, remaining magnet Arranged in the way of being faced with some in the first coil and second coil.

It can be made according to the camera model of one embodiment of the invention for two camera lens modules are separately-driven multiple Actuator shares common magnet, can prevent magnetic interference between multiple actuators accordingly.

It can be prevented for driving many of two camera lens modules respectively according to the camera model of one embodiment of the invention Magnetic interference is produced between individual actuator.

And it is possible to reduce the size of camera model, reduce manufacturing cost and improve productivity.

Brief description of the drawings

Fig. 1 is the stereogram for showing the camera model according to one embodiment of the invention.

Fig. 2 is the exploded perspective view of the camera model according to one embodiment of the invention.

Fig. 3 is the stereogram for the composition for showing camera lens module and actuator.

Fig. 4 is Fig. 3 plan.

Fig. 5 is the stereogram for showing the shape that camera lens module is supported by elastomeric element.

Fig. 6 is the stereogram for showing the separator for forcing elastic part.

Fig. 7 is to show between the light center of two camera lens modules in the camera model according to one embodiment of the invention The plan of the width of distance and housing.

Symbol description

100：Shell 110：Substrate

120：Housing 130：Fixture

210：First camera lens module 230：Second camera lens module

300：Actuator 310：First actuator

320：Second actuator 350：Common magnet

410：First elastomeric element 430：Second elastomeric element

500：Image sensor module 600：Separator

Embodiment

Hereinafter, embodiments of the invention are described in detail referring to the drawings.But the thought of the present invention is not limited to institute The embodiment of proposition.

For example, the those skilled in the art that understanding of thought of the invention can be made up of addition, change or deletion and want Element wait and propose belong to the present invention thought in the range of other embodiment, but these should belong to the present invention thought range It is interior.

If giving a definition to direction term, optical axis direction represent be with the first camera lens module 210 or the second camera lens module 230 The above-below direction of benchmark.

Fig. 1 is the stereogram for showing the camera model according to one embodiment of the invention, and Fig. 2 is real according to of the invention one Apply the exploded perspective view of the camera model of example.

Referring to Figures 1 and 2, included according to the camera model 1000 of one embodiment of the invention：First camera lens module 210, Second camera lens module 230, the shell 100 for housing the first camera lens module 210 and the second camera lens module 230, for making first The actuator 300 of the camera lens module 230 of camera lens module 210 and second movement and for the first camera lens module 210 and the will to be passed through The incident light of two camera lens module 230 is converted into the image sensor module 500 of electric signal.

First camera lens module 210 and the second camera lens module 230 respectively include lens barrel 210a, 230a and with lens barrel 210a, Spool (Bobbin) 210b, 230b that 230a is combined.

Lens barrel 210a, 230a can be hollow drums shoots multiple lens of subject to house, and multiple Lens are arranged along optical axis.

First camera lens module 210 and the second camera lens module 230 are accommodated in outer in the way of it can be moved along optical axis direction The inside of shell 100.Also, the first camera lens module 210 and the second camera lens module 230 can in the way of separately moving structure Into.

First camera lens module 210 and the second camera lens module 230 are with visual angle (angle of view) different from each other Mode is constituted.

In one example, some visual angle in the first camera lens module 210 and the second camera lens module 230 can relatively broadly Constitute (wide-angle lens), another visual angle relatively can narrowly constitute (long shot).

It is designed to that the visual angle of two camera lens modules is different from each other as described above, can shoots shot with a variety of depth The image of body.

And it is possible to high-resolution image is generated using two images (for example, synthesis) for a subject, Or the brighter image of generation, therefore can also be clearly captured in low-light (level) environment the image of subject.

And it is possible to form 3D rendering using multiple images, it is possible to realize zoom function.

Shell 100 houses the first camera lens module 210 and the second camera lens module 230 simultaneously, also, in the inside of shell 100 It is formed with two mobile spaces that the first camera lens module 210 and the second camera lens module 230 can be made separately to move.

Shell 100 includes substrate 110 and the housing 120 combined with substrate 110.

In substrate 110 equipped with two light path windows (window).Therefore, the first mirror is passed through by two light path windows The light of the camera lens module 230 of head module 210 and second can be received by imaging sensor 510,530 respectively.

Housing 120 is combined with substrate 110, and plays the function of the Inner Constitution part of protection camera model 1000.

In addition, shell 100 is combined with substrate 110, and the fixture for the inside for being arranged in housing 120 can also be included (holder)130。

Fixture 130 is combined with substrate 110 and forms mobile space, so that the first camera lens module 210 and the second camera lens mould Block 230 can be moved along optical axis direction.

Image sensor module 500 is for will be changed by the light of the first camera lens module 210 and the second camera lens module 230 Into the device of electric signal.

In one example, image sensor module 500 includes：Tellite 550, it is connected to tellite 550 The first imaging sensor 510 and the second imaging sensor 530.

The light incident by each camera lens module 210,230 is converted into electric signal by each imaging sensor 510,530. In one example, each imaging sensor 510,530 can be charge coupling device (CCD；Charge Coupled Device) or Person's complementary metal oxide semiconductor (CMOS；Complementary Metal-Oxide Semiconductor).

Actuator 300 is the dress for making the first camera lens module 210 and the second camera lens module 230 be moved along optical axis direction Put.

Using actuator 300 the first camera lens module 210 and the second camera lens module 230 can be made to be moved along optical axis direction It is dynamic, so as to adjust focal length.

Actuator 300 includes the first actuator 310 and the second actuator 330, so that the first camera lens module 210 and the second mirror Head module 230 is independently moved.

Each actuator includes coil and magnet, and can make the using the electromagnetic effect power between coil and magnet One camera lens module 210 and the second camera lens module 230 are moved along optical axis direction.

Fig. 3 is the stereogram for the composition for showing camera lens module and actuator, and Fig. 4 is Fig. 3 plan.

Reference picture 3 and Fig. 4, the composition to actuator 300 are illustrated.

Actuator 300 includes：First coil 310a, is provided to the exterior face of first coil module 210；Second coil 330a, is provided to the exterior face of the second camera lens module 230；Common magnet 350, with face of first coil 310a and the second coil 330a mode is arranged.

Common magnet 350 is arranged between the first camera lens module 210 and the second camera lens module 230, and is fixed on shell 100。

Common magnet 350 is faced with a surface 350a and first coil 310a, another surface 350b and the second coil 330a The mode faced is arranged.

Therefore, the first camera lens module 210 can be by means of the drive that is produced between first coil 310a and common magnet 350 Power and moved along optical axis direction, the second camera lens module 230 can by means of the second coil 330a and common magnet 350 it Between the driving force that produces and moved along optical axis direction.

Wherein, actuator 300 can also include：First magnet 310b, is fixed in the way of being faced with first coil 310a In shell 100；And the second magnet 330b, it is fixed on shell 100 in the way of being faced with the second coil 330a.

First magnet 310b and the second magnet 330b can be made up of multiple magnets respectively.In one example, the first magnet 310b can be made up of three magnets, and the second magnet 330b can also be made up of three magnets.

First coil 310a, the first magnet 310b and common magnet 350, which can be played, makes the first camera lens module 210 along light The function of first actuator 310 of direction of principal axis movement.Also, the second coil 330a, the second magnet 330b and common magnet 350 can To play the function for the second actuator 330 for making the second camera lens module 230 be moved along optical axis direction.

Therefore, the first camera lens module 210 and the second camera lens module 230 can be separately by the first actuators 310 Moved with the second actuator 330 along optical axis direction.

In two actuators respectively by the case that independent magnet and coil are constituted, if by between two actuators Line space design it is narrower, then the magnetic field of two actuators may be caused interfering with each other and shadow is brought to the drive characteristic of actuator Ring.

But, in the camera model 1000 according to one embodiment of the invention, the first actuator 310 and the second actuator Common magnet 350 is constituted and shared by 330 as one.Therefore, even if reducing the first actuator 310 and the second actuator 330 Between spacing, magnetic interference will not be also produced between the first actuator 310 and the second actuator 330, therefore can prevent The drive characteristic of actuator is changed.

But, in the camera model 1000 according to one embodiment of the invention, the first actuator 310 and the second actuator Common magnet 350 is constituted and shared by 330 as one.Therefore, it can by the first actuator 310 and the second actuator 330 it Between line space design it is narrower, the overall size of camera model 1000 can also be reduced accordingly.

Also, due to the overall size of camera model 1000 can be reduced, it is possible to reduce imaging sensor 510,530 Size, the quantity for the imaging sensor 510,530 that can be produced from the chips (Wafer) of formed objects can be increased accordingly, So as to improve productivity.

And it is possible to the component count for constituting and being used required for actuator 300 is reduced by using common magnet 350, because This can reduce manufacturing cost.

First magnet 310b and common magnet 350 can have identical polar with the face towards the first camera lens module 210 Mode is magnetized.In one example, with being provided to the first magnetic that the first coil 310a of exterior face of the first camera lens module 210 is faced A body 310b surface 310b-1, can be magnetized to have the first polarity with a surface 350a of common magnet 350.

Also, the second magnet 330b and common magnet 350 can be magnetized to have towards the face of the second camera lens module 230 Identical polar.In one example, with being provided to the second magnet that the second coil 330a of exterior face of the second camera lens module 230 is faced A 330b surface 330b-1 and another surface 350a of common magnet 350 can be magnetized to have the second polarity.

Wherein, during the first polarity and the second polarity are reciprocal polarity, an example, the first polarity can represent N poles, Second polarity can represent S poles.

In addition, the thickness of common magnet 350 is formed as thicker than the first magnet 310b and the second magnet 330b thickness.

In one example, the thickness that the thickness of common magnet 350 can be than the first magnet 310b (constitutes the first magnet 310b's The thickness of each magnet) it is thicker, and thickness that can be than the second magnet 330b (constitutes the second magnet 330b each magnet Thickness) it is thicker.

First magnet 310b and the second magnet 330b can be made up of 3 magnets respectively, and common magnet 350 can be by one Magnet is constituted.

Therefore, the first camera lens module 210 and the second camera lens module 230 can be respectively by producing by 4 magnets Driving force and moved along optical axis direction.

Wherein, in the case where the size of the driving force produced by four magnets is different from each other, the first camera lens module 210 It may not be moved parallel to the second camera lens module 230 with optical axis.

Therefore, three magnets for constituting the first magnet 310b are designed to have mutually the same thickness, so that by four Individual magnet and the driving force that produces has identical size, and the thickness of common magnet 350 is designed to than constituting the first magnet The thickness of 310b each magnet is thicker.Common magnet 350 is also identical with this with the second magnet 330b relation.

All referred to during making the process of the first camera lens module 210 movement and moving the second camera lens module 230 To common magnet 350, therefore the thickness of common magnet 350 can be designed to be thicker and prevent the size of driving force from producing partially Difference.

Fig. 5 is the stereogram for showing the shape that camera lens module is supported by elastomeric element, and Fig. 6 is to show to be used for forcing elastic portion The stereogram of the separator (spacer) of part.

Reference picture 5 and Fig. 6, the first camera lens module 210 and the second camera lens module 230 are flexibly supported by elastomeric element respectively.

Elastomeric element includes being used for the first elastomeric element 410 of the first camera lens module 210 of support and for supporting second Second elastomeric element 430 of camera lens module 230.

First elastomeric element 410 includes being used to support the first top elastomeric element on the top of the first camera lens module 210 410a and for support the first camera lens module 210 bottom the first lower elastic part 410b；Second elastomeric element 430 is wrapped Include for the second top elastomeric element 430 on the top of the second camera lens module 230 of support and for supporting the second camera lens module Second lower elastic part 430b of 230 bottom.

First lower elastic part 410b and the second lower elastic part 430b are installed to substrate 110 and by the first camera lens The lower elastic support of the camera lens module 230 of module 210 and second.

First top elastomeric element 410a and the second top elastomeric element 430a are installed to fixture 130 and by the first mirror The top resilient support of the camera lens module 230 of head module 210 and second.

Wherein, be disposed between the first top elastomeric element 410a and the second top elastomeric element 430a and shell 100 with The separator 600 constituted to the first top elastomeric element 410a and the second top elastomeric element 430a mode pressurizeed.Point Spacing body 600 includes being used for the first top elastomeric element 410a the first separators 610 pressurizeed and for the second top The second separator 630 that elastomeric element 430a is pressurizeed, and formed by flexible material.

The upper surface of separator 600 is contacted with shell 100, the lower surface of separator 600 and the first top elastomeric element 410a and the second top elastomeric element 430a contacts.

First top elastomeric element 410a and the second top elastomeric element 430a is by separator 600 to the downside of optical axis direction (such as towards the direction of substrate 110) is pressurized, and accordingly, is combined with the first top elastomeric element 410a and the second top elastomeric element 430a fixture 130 is also by the pressure towards the downside of optical axis direction.

First top elastomeric element 410a and the second top elastomeric element 430a can applied by separator 600 Pressure and maintain to be installed to fixture 130 in the state of the degree of balance relative to fixture 130.

Also, one end of fixture 130 is contacted with the first lower elastic part 410b and the second lower elastic part 430b, And the pressure produced by separator 600 can also be transferred to fixture 130, therefore one end of fixture 130 will be towards optical axis side To downside and the first lower elastic part 410b and the second lower elastic part 430 are pressurizeed.Therefore, the first bottom bullet Property part 410b and the second lower elastic part 430b can be pacified in the state of the degree of balance is maintained relative to substrate 110 It is attached to substrate 110.

Fig. 7 is to show between the light center of two camera lens modules in the camera model according to one embodiment of the invention The plan of the width of distance and housing.

The distance between the light center of reference picture 7, the light center of the first camera lens module 210 and the second camera lens module 230 D1 Be formed as more shorter than the width D 2 of shell 100.

Also, the beeline D1 between the optical axis of the optical axis of the first camera lens module 210 and the second camera lens module 230 is than outer The width D 2 of shell 100 is formed shorterly.

Wherein, light center represents the point that light intersects with the optical axis of each camera lens module 210,230；Width means are with Fig. 7's On the basis of plan, shell 100 shorter side in while length.

In order to generate high-resolution image or brighter figure by using two images that two camera lens modules are shot The distance between light center of two camera lens modules, is preferably designed to shorter by picture.

In one example, the distance being designed between the light center of two camera lens modules farther out in the case of, for one Two images of subject are taken into image different from each other, it is thus possible to be difficult to generate high-resolution image or brightness is high Image.

Therefore, in the camera model 1000 according to one embodiment of the invention, the first camera lens module 210 can be designed to The distance between light center and the light center of the second camera lens module 230 D1 it is more shorter than the width D 2 of shell 100, accordingly can profit A variety of images are generated with two images for a subject.

Embodiment more than, can prevent from driving respectively according to the camera model 1000 of one embodiment of the invention Magnetic interference is produced between multiple actuators of two camera lens modules.

And it is possible to reduce the size of camera model and reduce manufacturing cost, so as to improve productivity.

Hereinbefore, the composition and feature using embodiments in accordance with the present invention as benchmark to the present invention are said It is bright, but the invention is not restricted to this, those skilled in the art is clearly understood that can in the thought and scope of the present invention There is numerous variations or deformation, therefore, change or deformation as above belong in scope of the presently claimed invention.

Claims (16)

1. a kind of camera model, it is characterised in that including：

First camera lens module and the second camera lens module, are constituted in the way of it can be moved along optical axis direction；

Shell, with inner space to house first camera lens module and second camera lens module；And

Actuator, including common magnet, the common magnet provide driving force and make first camera lens module and described second Camera lens module is moved respectively along the optical axis direction.

2. camera model as claimed in claim 1, it is characterised in that

The common magnet is arranged between first camera lens module and second camera lens module, and is fixed on described outer Shell.

3. camera model as claimed in claim 1, it is characterised in that

The actuator also includes：First coil, is provided to the exterior face of first camera lens module；Second coil, is provided to The exterior face of second camera lens module；

One surface of the common magnet faces the first coil, and another surface of the common magnet faces second line Circle.

4. camera model as claimed in claim 3, it is characterised in that

The actuator also includes：First magnet, is fixed on the shell in the way of in face of the first coil；Second magnetic Body, the shell is fixed in the way of in face of second coil.

5. camera model as claimed in claim 4, it is characterised in that

The thickness of first magnet described in the thickness ratio of the common magnet and second magnet is thicker.

6. camera model as claimed in claim 4, it is characterised in that

In face of the first coil first magnet and the common magnet while be magnetized to have first Polarity；

It is magnetized to have the in face of the one side of second magnet and the another side of the common magnet of second coil Two polarity.

7. camera model as claimed in claim 6, it is characterised in that

First polarity and second polarity are reciprocal polarity.

8. camera model as claimed in claim 1, it is characterised in that

First camera lens module and second camera lens module have visual angle different from each other.

9. camera model as claimed in claim 1, it is characterised in that

Beeline between the optical axis of the optical axis of first camera lens module and second camera lens module is than the shell Width is small.

10. camera model as claimed in claim 1, it is characterised in that

The shell includes：

Substrate, is combined with the tellite equipped with imaging sensor；

Housing, is combined with the substrate；

Fixture, is arranged in the inside of the housing, and combined with the substrate.

11. camera model as claimed in claim 1, it is characterised in that

First camera lens module and second camera lens module are flexibly supported by elastomeric element respectively.

12. camera model as claimed in claim 11, it is characterised in that

The elastomeric element includes：

First top elastomeric element and the first lower elastic part, wherein, first top elastomeric element is used to support institute The top of the first camera lens module is stated, the first lower elastic part is used for the bottom for supporting first camera lens module；

Second top elastomeric element and the second lower elastic part, wherein, second top elastomeric element is used to support institute The top of the second camera lens module is stated, the second lower elastic part is used for the bottom for supporting second camera lens module.

13. camera model as claimed in claim 12, it is characterised in that

Between first top elastomeric element and second top elastomeric element and the shell, it is disposed with to described The separator that the mode that first top elastomeric element and second top elastomeric element are pressurizeed is constituted.

14. a kind of camera model, it is characterised in that including：

First camera lens module and the second camera lens module, are constituted in the way of it can be moved in shell along optical axis direction；

Actuator makes first camera lens module and second camera lens module there is provided driving force respectively along the optical axis side To movement,

Wherein, the actuator also includes：First coil, is provided to the exterior face of first camera lens module；Second coil, matches somebody with somebody For in the exterior face of second camera lens module；And multiple magnets,

A magnet in the multiple magnet arranged in the way of all being faced with the first coil and second coil, its Residual magnetism body is arranged in the way of being faced with some in the first coil and second coil.

15. camera model as claimed in claim 14, it is characterised in that

The magnet arranged in the way of all being faced with the first coil and second coil is the thickness in the multiple magnet Spend most thick magnet.

16. camera model as claimed in claim 14, it is characterised in that

Air line distance between the light center of the light center of first camera lens module and second camera lens module is outer than described The width of shell is small.