CN106444219A - Camera module - Google Patents

Abstract

Provided is a camera module. The camera module comprises an automatic focusing unit enabling a lens barrel to move along the direction of the optical axis; an optical image stabilizer (OIS) unit enabling the lens barrel to move along the direction vertical to the optical axis; and a connecting unit connected to the automatic focusing unit and the OIS unit and supplying control signals and current to the automatic focusing unit and the OIS unit, and wherein the automatic focusing unit and the OIS unit are arranged in sequence along the direction of the optical axis of the lens barrel.

Description

Camera model

This application claims submit in Korean Intellectual Property Office in August in 2015 11 days the The rights and interests of the priority of 10-2015-0113483 korean patent application, in the disclosure of this korean patent application Hold and be incorporated herein by this.

Technical field

It relates to one kind has automatic focusing function and the camera model of optical anti-vibration (OIS) function.

Background technology

Generally, camera model generally has automatic focusing function.Additionally, camera model can have optics preventing Tremble function, to mitigate due to handshaking and phenomenon that the resolution that leads to reduces.

There is automatic focusing function and the camera model of OIS function is conducive to high-resolution imaging.However, Such camera model has relative complex internal structure making it difficult to manufacture such camera model. Further, since the actuator executing every kind of function leads to be difficult to make such camera miniaturization.

As reference, patent document 1 discloses that the camera model of correlation technique.

[relevant technical literature]

(patent documentation 1) KR10-2009-127628A

Content of the invention

The one side of the disclosure can provide a kind of camera model being capable of easy to manufacture and miniaturization.

According to the one side of the disclosure, a kind of camera model may include the automatic focusing along optical axis direction setting Unit and optical anti-vibration (OIS) unit, thus can improving the convenience of the assembling of camera model and can making phase Machine module minimizes.

According to the one side of the disclosure, a kind of camera model may include：Automatically focusing unit, makes lens mirror Cylinder moves along optical axis direction；Optical anti-vibration (OIS) unit, makes lens barrel along perpendicular to the direction of optical axis Motion；Connection unit, is connected to automatic focusing unit and OIS unit and supplies control signal and electric current Automatic focusing unit and OIS unit should be arrived, wherein, the optical axis direction along lens barrel is sequentially arranged certainly Dynamic focusing unit and OIS unit.

According to another aspect of the present disclosure, a kind of camera model includes：Automatically focusing unit, makes lens mirror Cylinder moves along optical axis direction；First OIS unit, makes automatic focusing unit along the first party perpendicular to optical axis To motion；2nd OIS unit, makes automatic focusing unit move along the second direction perpendicular to optical axis；Even Order unit, automatic focusing unit, an OIS unit and the 2nd OIS unit are connected to each other；Wherein, Along optical axis direction, the first OIS unit, automatic focusing unit and the 2nd OIS unit are sequentially set.

Brief description

By the detailed description carrying out below in conjunction with the accompanying drawings, will be more clearly understood the above-mentioned of the disclosure and its His aspect, feature and other advantages, wherein：

Fig. 1 is the decomposition diagram of the camera model of the exemplary embodiment according to the disclosure；

Fig. 2 is the diagram illustrating the construction of optical anti-vibration (OIS) unit according to exemplary embodiment；

Fig. 3 is the diagram of the construction illustrating the OIS unit according to another exemplary embodiment；

Fig. 4 is the decomposition diagram of the automatic focusing unit shown in Fig. 1；

Fig. 5 is the perspective view of a part for the actuator illustrating Fig. 4；

Fig. 6 is to illustrate to be in the lens barrel holder of bonding state and the perspective view of the second housing；

Fig. 7 is the perspective view of the combining form illustrating connection unit；

Fig. 8 is the subassembly perspective view of camera model；

Fig. 9 is the diagram of the construction of the camera model illustrating the another exemplary embodiment according to the disclosure；

Figure 10 is the diagram of the construction of the camera model illustrating the another exemplary embodiment according to the disclosure.

Specific embodiment

Hereinafter, will be described in detail with reference to the accompanying drawings the embodiment of present inventive concept.

However, present inventive concept can illustrate in many different forms, and should not be solved It is interpreted as being confined to specific embodiment set forth herein.More precisely, these embodiments are provided as making The disclosure by be thoroughly with complete, and the scope of the present disclosure is fully conveyed to the skill of this area Art personnel.

Run through description it will be appreciated that, when the element of such as layer, region or chip (substrate) is claimed Be another element " on ", " being connected to " another element or during " being attached to " another element, it can directly exist Other element " on ", " being connected to " other element or " being attached to " other element or there may be between both Between other elements.By contrast, when element be referred to as " directly existing " another element " on ", " be directly connected to To " another element or during " being bonded directly to " another element, do not exist element between them or Layer.Identical label represents identical element all the time.Term "and/or" as used herein includes related institute One or more arbitrarily and all the combining listd.

It will be apparent that although term " first ", " second " and " the 3rd " etc. can be used herein to describe various Component, assembly, region, layer and/or part, but these components, assembly, region, layer and/or part Should not be limited by these terms.These terms are only used for a component, assembly, region, layer or part Distinguish with another component, assembly, region, layer or part.Therefore, without departing from this exemplary enforcement In the case of the teaching of example, first component discussed below, assembly, region, layer or part can be named For second component, assembly, region, layer or part.

Here can use space correlation term (such as, " and ... on ", " ... above ", " ... it Under " and " ... below " etc.), in order to describe an element illustrated in the accompanying drawings and other element Relation.It will be appreciated that the term of space correlation is intended to encompass device except the side described in accompanying drawing Different azimuth in use or operation outside position.For example, if the device in accompanying drawing is reversed, by Be described as " " element of other elements or feature " on " or " " other elements or feature " above " can quilt Orientate as " " other elements or feature " under " or " " other elements or feature " below ".Therefore, term " ... on " can specific direction with reference to the accompanying drawings comprise " ... on " and " ... under " two kinds of orientation. Device can be by other positioning (ratating 90 degrees or be in other orientation) and can respective explanations sky as used herein Between related description.

Term as used herein is only used for describing the purpose of specific embodiment, is not intended to limit structure of the present invention Think.Unless the context clearly indicates otherwise, otherwise singulative used herein is also intended to including multiple Number form formula.It should also be appreciated that：The term " inclusion " using in this manual and/or "comprising" represent presence Described feature, entirety, step, operation, component, element and/or a combination thereof, but do not exclude the presence of or Add one or more further features, entirety, step, operation, component, element and/or a combination thereof.

Hereinafter, present inventive concept is described the schematic diagram with reference to the embodiment illustrating present inventive concept Embodiment.In the accompanying drawings, for example, due to manufacturing technology and/or tolerance, the modification of the shape illustrating is can It is expected.Therefore, the embodiment in present inventive concept should not be construed as being limited to the area being shown in which The given shape in domain, for example, is not limited to the change including the shape leading in the mill.Following enforcement Example also can be made up of one or combinations thereof.

Although the content of invention described below design can have multiple constructions and only propose institute here The construction needing, but not limited to this.

Camera model by the exemplary embodiment describing with reference to Fig. 1 according to the disclosure.

Camera model 10 may include image sensor cell 100, filter elements 200, optical anti-vibration (OIS) Unit 300, automatic focusing unit 400 and housing unit 600.However, camera model 10 is not limited to Including said units.For example, filter elements 200 can be excluded from the assembly of camera model 10.

Image sensor cell 100 may include substrate 110 and imageing sensor 120.Substrate 110 and image Sensor 120 can be formed integrally with each other using chip on board (COB) method.In this case, scheme As sensor unit 100 can be easily thinning.

Filter elements 200 may include light filter housing 210 and light filter 220.Can be in light filter shell Form the hole 212 for adjusting the light quantity being incident on imageing sensor 120 in body 210.Hole 212 Can have the shape and size substantially proportional to the shape and size of imageing sensor 120.As showing Example, hole 212 can have the rectangular shape similar to the shape of imageing sensor 120.Additionally, hole 212 Can have the size being basically the same with imageing sensor 120.Light filter 220 may be structured to Realize the clearly image catching by camera model 10.As an example, light filter 220 can be from entering It is mapped in the light of imageing sensor 120 and filter the light (for example, infrared ray) with specific wavelength.

OIS unit 300 may be provided under automatic focusing unit 400.However, OIS unit 300 It is not limited to be arranged between filter elements 200 and automatic focusing unit 400.As an example, OIS Unit 300 may also be arranged on automatic focusing unit 400.

OIS unit 300 can make a part for automatic focusing unit 400 along perpendicular to the direction of optical axis fortune Dynamic.As an example, OIS unit 300 can make the lens barrel of automatic focusing unit 400 along perpendicular to The first direction motion of optical axis.As another example, OIS unit 300 can make automatic focusing unit 400 Lens barrel move along perpendicular to the second direction of optical axis.As another example, OIS unit 300 Move perpendicular to the first direction of optical axis and second direction in the lens barrel edge that automatic focusing unit can be made.

OIS unit 300 can make the direction that automatic focusing unit 400 weakens along camera model 10 shake Motion.As an example, when camera model 10 moves in the first direction, OIS unit 300 can make Automatically focusing unit 400 moves in the opposite direction along with first party.As another example, work as camera When module 10 is moved in a second direction, OIS unit 300 can make automatic focusing unit 400 along with Two direction motions in opposite direction.

OIS unit 300 may include the first housing 310 and connection terminal 320.First housing 310 can Including the assembly that will be attached to automatic focusing unit 400.As an example, can be in the first housing 310 The middle receiving portion 312 forming the part accommodating automatic focusing unit 400.

The OIS unit 300 of operation as described above can make camera model 10 clearly be imaged.

Automatically focusing unit 400 can make camera model 10 automatically focus on.As an example, automatically focus on Unit 400 can make lens or lens barrel move along optical axis direction.

Housing unit 600 can protect camera model 10 from the impact of harmful electromagnetic wave and impact. For this reason, housing unit 600 can be formed by metal.However, the material of housing unit 600 is not limited to gold Belong to.As an example, housing unit 600 also can be by the resin formation comprising metal powder granulates.

Housing unit 600 can be divided into lower house 610 and upper shell 620.As an example, lower house 610 Can be by image sensor cell 100, filter elements 200, OIS unit 300 and automatic focusing Unit 400 accommodates wherein.Additionally, upper shell 620 can cover the top of lower house 610.

Camera model 10 configured as above can have automatic focusing unit 400 and OIS unit 300 The structure being in alignment with each other along optical axis direction.Therefore, can easily assemble and manufacture camera model 10.This Outward, because automatic focusing unit 400 and OIS unit 300 are arranged along optical axis direction, so can pass through Automatically the localized variation of design of focusing unit 400 or OIS unit 300 and so that camera model 10 is become Thin.

A kind of form of OIS unit will be described with reference to Fig. 2.

OIS unit 300 can make the lens barrel 410 of automatic focusing unit 400 move.As an example, OIS unit 300 can make lens barrel 410 along direction (X-axis in Fig. 2 and the Y perpendicular to optical axis Direction of principal axis) motion.

OIS unit 300 may include the first housing 310, connection terminal 320 and the first actuator 330. The receiving portion 312 of the part accommodating lens barrel 410 can be formed in the first housing 310.Can be Connection terminal 320 is formed on the side surface of the first housing 310.Connection terminal 320 may be connected to install The first actuator 330 in the first housing.First actuator 330 can make to be arranged on receiving portion 312 In lens barrel 410 move along the direction perpendicular to optical axis.As an example, the first actuator 330 Can be shrink according to being applied to its control signal or extend marmem 332,334, 336 and 338.

Marmem 332,334,336 with 338 can relative for receiving portion 312 with annular shape Formula is arranged.Marmem 332,334,336 and 338 provided as before can be according to control Signal processed is shunk or is extended, and pushes lens barrel 410 with edge perpendicular to the direction of optical axis and makes Mirror lens barrel 410 moves along the direction perpendicular to optical axis.

Another form of OIS unit will be described with reference to Fig. 3.

OIS unit 300 may include has another form of actuator 330.As an example, actuator 330 may include permanent magnet 332 and coil 334.Here, permanent magnet 332 may be provided at and is inserted into appearance In the lens barrel 410 received in portion 312, coil 334 may be provided in the first housing 310.

Actuator 330 configured as above can be produced between permanent magnet 332 and coil 334 by adjusting The raw direction of the magnetic line of force and size and so that lens barrel 410 is moved along the direction perpendicular to optical axis.

With reference to Fig. 4 and Fig. 5, automatic focusing unit will be described.

Automatically focusing unit 400 may include lens barrel 410, lens barrel holder 420, second Housing 430, lid 440 and the second actuator 450.However, automatic focusing unit 400 is not limited to Including said modules.As an example, automatic focusing unit 400 may also include multiple balls 462,464 And 466.

Lens barrel 410 may include one or more lens.As an example, lens barrel 410 can Including five or more lens being separated from each other are arranged on optical axis.However, lens barrel 410 In the quantity of included lens be not limited to five.As an example, lens barrel 410 may include four Or less lens or six or more lens.

Lens barrel holder 420 can be coupled to lens barrel 410.As an example, lens barrel is solid Determine device 420 to move along optical axis direction together with lens barrel 410.Lens barrel holder 420 can It is arranged in the second housing 430.As an example, lens barrel holder 420 can be arranged to Move along optical axis direction in two housings 430.

A part for second actuator 450 can be accommodated wherein by lens barrel holder 420.As Example, the permanent magnet 452 of the second actuator 450 may be provided at one of lens barrel holder 420 On surface.

Lens barrel holder 420 can be accommodated wherein by the second housing 430.As an example, than saturating The big receiving space of mirror lens barrel holder 420 may be formed in the second housing 430.Second housing 430 May be formed such that lens barrel holder 420 can move along optical axis direction.As an example, second shell The upper and lower of body 430 can be opened wide so that lens barrel holder 420 is movable.

Second housing 430 may be configured such that the second actuator 450 can smoothly operate.As showing Example, permanent magnet 452 and coil 456 that perforate 434 is opened wide as making the second actuator 450 can be each other Faced by, perforate 434 may be formed in a side surface of the second housing 430.

Lid 440 can be coupled to the second housing 430.As an example, the latch 442 of lid 440 can be with the The wedge 432 of two housings 430 engages.Lid 440 configured as above can prevent lens barrel solid Determine device 420 to separate with the second housing 430.

Lid 440 can be formed by the metal being resiliently deformable.Therefore, lid 440 can absorb and lens mirror The impact producing during cylinder holder 420 collision.

Buffer component 444 may be formed on lid 440.As an example, by shapes such as synthetic resin, rubber The multiple buffer components 444 becoming may be formed on the upper surface (in Fig. 4) of lid 440.

Buffer component 444 can be formed with lid 440.As an example, can be by being such as molded into Buffer component 444 is firmly formed on lid 440 methods such as type.Buffering structure formed as discussed above Part 444 can absorb the impact producing when colliding between lens barrel holder 420 and lid 440 With impulsive sound (noise).

Second actuator 450 may include permanent magnet 452 and coil 456.

Permanent magnet 452 may be provided in the moveable portion of automatic focusing unit 400.As an example, Permanent magnet 452 may be provided in lens barrel holder 420.Coil 456 may be provided at automatic focusing The fixation of unit 400 partly in.As an example, coil 456 may be provided in the second housing 420.

Permanent magnet 452 and coil 456 may be configured as facing with each other.Permanent magnet 452 and coil 456 can Produce magnetic force along with optical axis direction that is substantially parallel.The magnetic being produced by permanent magnet 452 and coil 456 Power can be used as making the driving that lens barrel 410 and lens barrel holder 420 move along optical axis direction Power.

Second actuator 450 may also include substrate 454.Substrate 454 may be configured as covering the second housing 430 perforate 434.Coil 456 and driving element 458 may be formed on substrate 454.Additionally, Connection terminal for control signal and electric current are applied to coil 456 can be formed on substrate 454 455.

Automatically focusing unit 440 may also include the group that can make lens barrel holder 420 easy motion Part.As an example, automatic focusing unit 400 may also include ball 462,464 and 466 and profit Lubrication prescription.

Ball 462,464 and 466 may be provided at lens barrel holder 420 and the second housing 430 Between.As an example, ball 462,464 and 466 may be provided at and is formed at lens barrel and fixes In gathering sill in device 420 or the second housing 430.Ball 462,464 provided as before with And 466 can reduce the contact friction between lens barrel holder 420 and the second housing 430.

Ball 462,464 and 466 can be of different sizes.As an example, ball 462 He 466 can be of the same size, but ball 464 can have less than the size of ball 462 and 466 Size.The form of ball 462,464 and 466 described above can make ball 462,464 with And 466 smoothly roll.

With reference to Fig. 6, lens barrel holder and the combining form of the second housing will be described.

Lens barrel holder 420 can be movably disposed in the second housing 430.For this reason, rolling Pearl 462 may be provided between lens barrel holder 420 and the second housing 430.As reference, roll Pearl 462 may be provided at gathering sill 428 by lens barrel holder 420 and the second housing 430 In the space that gathering sill 438 is formed.

Lens barrel holder 420 may include the assembly limiting its range of movement along optical axis direction.Make For example, retainer 422 may be formed at a surface of lens barrel holder 420 (in Fig. 6 Upper surface) on.Retainer 422 can limit the scope that lens barrel holder 420 can move upwards.

Second housing 420 may include the assembly limiting it along the range of movement perpendicular to optical axis direction.Make For example, may be formed at turning of the second housing 420 along the retainer 436 extending perpendicular to optical axis direction In corner.Retainer 436 formed as discussed above can limit the second housing 420 can be along perpendicular to optical axis The scope of direction motion.

The combining form of connection unit will be described with reference to Fig. 7.

Connection unit 500 can be by imageing sensor 100, OIS unit 300 and automatic focusing unit 400 are connected to each other.As an example, connection unit 500 can be by image sensor cell 100, OIS Unit 300 and automatic focusing unit 400 are all connected to each other to so that can pass through from imageing sensor The control signal that unit 100 sends is operating OIS unit 300 and automatic focusing unit 400.

Connection unit 500 can easily be bent.As an example, connection unit 500 can have flexible base Plate shape formula.

The combining form of camera model will be described with reference to Fig. 8.

Camera model 10 can have image sensor cell 100, filter elements 200, OIS unit 300 and automatic focusing unit 400 be sequentially stacked on form therein.Phase configured as above Machine module 10 can be easily thinning.

Camera model 10 can have imageing sensor 100, OIS unit by connection unit 500 300 and the form that is connected to each other of automatic focusing unit 400.Connection unit 500 can surround image and pass The side surface of sensor 100, OIS unit 300 and automatic focusing unit 400.Company described above The form of order unit 500 can improve image sensor cell 100, OIS unit 300 and automatically gather Reliability between burnt unit 400.

Camera model 10 may include the housing for protection.As an example, image sensor cell 100, Filter elements 200, OIS unit 300 and automatic focusing unit 400 may be housed in lower house 610 In, thus the impact from external impact.

Next, the camera model according to another exemplary embodiment will be described.As reference, under In the description in face, will be indicated and the camera model according to above-mentioned example embodiment with identical label Assembly identical assembly, and detailed description will be omitted.

Camera model by the another exemplary embodiment describing with reference to Fig. 9 according to the disclosure.

Camera model 10 according to this exemplary embodiment can be in filter elements 200, OIS unit 300 and automatic focusing unit 400 setting sequentially with according to example embodiments described above Camera model distinguish.As an example, camera model 10 may be configured such that OIS unit 300, Automatically focusing unit 400 and filter elements 200 can sequentially be assembled.

Have form described above camera model 10 can be conducive to being fabricated to OIS unit 300 little The situation of size.

Camera model according to another exemplary embodiment will be described with reference to Figure 10.

Camera model 10 according to this exemplary embodiment can on the construction of OIS unit 300 with root Camera model according to example embodiments described above is distinguished.As an example, OIS unit 300 can It is divided into an OIS unit 302 and the 2nd OIS unit 304.

First OIS unit 302 may be provided on the upper surface of automatic focusing unit 400.First OIS Unit 302 can make automatic focusing unit 400 along the first direction (X in Figure 10 perpendicular to optical axis Direction of principal axis) motion.

2nd OIS unit 304 may be provided on the lower surface of automatic focusing unit 400.2nd OIS Unit 304 can make automatic focusing unit 400 along the second direction (Y in Figure 10 perpendicular to optical axis Direction of principal axis) motion.

In camera model 10 configured as above, optionally change and exchange an OIS Unit 302 or the 2nd OIS unit 304.

As described above, according to the exemplary embodiment of the disclosure, camera model can be miniaturized.

Although having been described above illustrate and describing exemplary embodiment, those skilled in the art will be clear Chu, in the case of without departing from the scope of the present invention being defined by the claims, can make and repairing Change and modification.

Claims (10)

1. a kind of camera model, including：

Automatically focusing unit, makes lens barrel move along optical axis direction；

Optical anti-vibration unit, makes lens barrel edge move perpendicular to the direction of optical axis；

Connection unit, is connected to automatic focusing unit and optical anti-vibration unit, and by control signal and electric current It is fed to automatic focusing unit and optical anti-vibration unit,

Wherein, automatic focusing unit and optical anti-vibration unit are sequentially arranged along the optical axis direction of lens barrel.

2. camera model as claimed in claim 1, wherein, optical anti-vibration unit includes：

First housing, a part for lens barrel is contained in the first housing；

First actuator, is arranged in the first housing and makes being contained in the first housing of lens barrel Move perpendicular to the direction of optical axis in part edge.

3. camera model as claimed in claim 1, wherein, optical anti-vibration unit includes making lens barrel Along the multiple marmems moving perpendicular to optical axis direction.

4. camera model as claimed in claim 1, wherein, optical anti-vibration unit includes making lens barrel Along the permanent magnet moving perpendicular to the direction of optical axis and coil.

5. camera model as claimed in claim 1, wherein, automatic focusing unit includes：

Second housing, lens barrel is contained in the second housing；

Lens barrel holder, is attached to lens barrel and is arranged in the second housing；

Second actuator, makes lens barrel holder move along optical axis direction.

6. camera model as claimed in claim 1, wherein, automatic focusing unit includes so that lens mirror Multiple balls that cylinder is smoothly moved.

7. camera model as claimed in claim 1, wherein, automatic focusing unit also includes preventing lens Lens barrel lid detached with the housing of automatic focusing unit.

8. camera model as claimed in claim 1, wherein, connection unit is the flexible base being easily bent Plate.

9. camera model as claimed in claim 1, wherein, connection unit is connected to imageing sensor list Unit.

10. a kind of camera model, including：

Automatically focusing unit, makes lens barrel move along optical axis direction；

First optical anti-vibration unit, makes automatic focusing unit move along the first direction perpendicular to optical axis；

Second optical anti-vibration unit, makes automatic focusing unit move along the second direction perpendicular to optical axis；

Connection unit, by automatic focusing unit, the first optical anti-vibration unit and the second optical anti-vibration unit It is connected to each other；

Wherein, the first optical anti-vibration unit, automatic focusing unit and the second optical anti-vibration unit are along light Direction of principal axis is sequentially arranged.