CN106842479B - Camera model - Google Patents

Abstract

Disclose a kind of camera model.The camera model includes hand shaking compensation section, hand shaking compensation section includes fixed part and is supported for the movable portion that can relatively move about fixed part, wherein, hand shaking compensation section includes ball, it is inserted into the ball part in ball grooves in the form of slot and being arranged in below movable portion, and partly protrude, to move in a rolling manner on the upper surface of fixed part, thus there is hand shaking compensation function.In addition, screening cover may be provided on the top surface of fixed part, the magnet being arranged in movable portion can be fixed and be installed in socket.

Description

Camera model

This application claims Korea Spro 10-2015-0173473 submitted on December 7th, 2015 in Korean Intellectual Property Office The disclosure of the priority and right of state's patent application, the South Korea patent application is included herein by reference.

Technical field

This disclosure relates to a kind of camera model.

Background technique

Recently, in the mobile communication terminal of such as tablet personal computer and laptop computer and such as intelligence The subminiature camera module with high-level function can be used in the mobile phone of mobile phone.

As mobile communication terminal is miniaturized, since the influence of hand shaking when capturing image may become obviously meeting Deteriorate picture quality.Therefore, in order to obtain clearly picture quality, the technology for compensating hand shaking is needed.

For example, when capturing image, when there is hand shaking, the lens driving of optical anti-vibration (OIS) technology can will be applied Device is for compensating hand shaking.

The lens driving apparatus for applying OIS technology can be such that lens module moves upwards in the side vertical with optical axis direction. For this purpose, the ball for having used the suspension wire of support lens module and being arranged between fixed part and movable portion.

However, the bottom surface due to movable portion is worn by ball, foreign matter can be generated.Further, since having used rolling Pearl, is consequently fixed to fixed part and is mounted on the Infrared filter on fixed part to cause to be damaged due to external impact.In addition, Since the fixed force for the magnet being arranged in movable portion is smaller, there are magnets will become isolated risk.

Summary of the invention

The one side of the disclosure, which can provide one kind, can prevent foreign matter from generating, can prevent the damage to Infrared filter and can change The camera model of the fixed force of kind magnet.

According to the one side of the disclosure, a kind of camera model includes: fixed part；Movable portion is set to off in fixed part It can relatively move；Ball is inserted partially into in ball grooves in the form of slot and being arranged in below movable portion, and part Ground is prominent, to move in a rolling manner on the upper surface of fixed part.

According to the one side of the disclosure, a kind of camera model may include hand shaking compensation section, and the hand shaking compensation section includes solid To determine portion and is supported for the movable portion that can relatively move about fixed part, wherein the hand shaking compensation section includes ball, It is inserted into the ball part in ball grooves in the form of slot and being arranged in below movable portion, and partly protrudes, from And moved in a rolling manner on the upper surface of fixed part, thus there is hand shaking compensation function.In addition, screening cover may be provided at On the top surface of fixed part, the magnet being arranged in movable portion can be fixed and is installed in socket.

It can be prevented since the ball grooves for being inserted ball are arranged in movable portion to red according to the disclosure The damage of outer optical filter can prevent from generating foreign matter in camera model by screening cover, also, the fixation due to that can improve magnet Power, therefore isolated risk will be become there is no magnet.

Detailed description of the invention

By the detailed description carried out below in conjunction with the accompanying drawings, the above and other aspects of the disclosure, feature and advantage will be by It is more clearly understood that, in the accompanying drawings:

Fig. 1 is the perspective view of general camera model according to the exemplary embodiment of the disclosure；

Fig. 2 is the main view for removing the general camera model of shielding case；

Fig. 3 is the decomposition perspective view of camera model according to the exemplary embodiment of the disclosure；

Fig. 4 is the sectional view of the camera model according to the exemplary embodiment of the disclosure intercepted along the A-A ' line of Fig. 1；

Fig. 5 is from that removes the main views of the camera model according to the exemplary embodiment of the disclosure of shielding case；

The top that Fig. 6 is used in the bracket (movable portion) in camera model according to the exemplary embodiment of the disclosure is saturating View；

The bottom that Fig. 7 is used in the bracket (movable portion) in camera model according to the exemplary embodiment of the disclosure is saturating View；

Fig. 8 is used in the top perspective of the fixed part in camera model according to the exemplary embodiment of the disclosure；

Fig. 9 be show the state for making camera model according to the exemplary embodiment of the disclosure be integrated to substrate decomposition it is saturating View；

Figure 10 is the assembly for showing the state for making camera model according to the exemplary embodiment of the disclosure be integrated to substrate Perspective view；

Figure 11 be include camera model according to the exemplary embodiment of the disclosure portable electronic device perspective view.

Specific embodiment

Hereinafter, example is described implementation of the disclosure with reference to the accompanying drawings.

However, the disclosure can be implemented in different forms, and it should not be construed as being limited to tool set forth herein Body embodiment.More precisely, these embodiments are provided so that this disclosure will be thorough and complete, and by the model of the disclosure It encloses and is fully conveyed to those skilled in the art.

Throughout the specification, it will be appreciated that, when element (such as, layer, region or wafer (substrate)) is referred to as " " When another element "upper", " being connected to " another element or " being integrated to " another element, can directly " " another element "upper", " being connected to " another element or " being integrated to " another element, or may be present between the other elements between them.In comparison, When element is referred to as " directly existing " another element "upper", " being directly connected to " another element or " being bonded directly to " another element When, there is no between the element or layer between them.Identical label indicates identical element always.As used in this, Term "and/or" includes one or more any and all combinations of related institute's list.

It will be apparent that although the terms such as " first ", " second ", " third " can be used herein describe each component, Component, regions, layers, and/or portions, but these components, component, regions, layers, and/or portions should not be limited by these terms. These terms are only used to by a component, component, regions, layers, and/or portions and another component, component, region, layer or part Mutually distinguish.Therefore, without departing from the teachings of the exemplary embodiments, first component discussed below, component, region, Layer or part can be described as second component, component, region, layer or part.

Can be used herein " ... on ", " top ", " ... under " and " lower part " etc. spatial relationship Term, to be easy to describe the relationship of an element as shown in drawings and another (or other) element.It will be appreciated that space Relational terms are intended to encompass the different direction of device in use or operation other than discribed orientation in the accompanying drawings.Example Such as, if the device in attached drawing is reversed, be described as be in other elements or feature " top " or " on " element it is subsequent To be positioned in other elements or feature " lower part " or " under ".Therefore, term " ... on " can with reference to the accompanying drawings specific Direction include " ... on " and " ... under " two kinds of orientation.Described device (can be rotated by 90 ° or be located by addition positioning In other orientation), and spatial relation description used herein can be accorded with and make corresponding explanation.

Term as used herein only describes specific embodiment, and the present disclosure is not limited thereto.As used in this, unless up and down Text clearly dictates otherwise, and otherwise singular form is also intended to the form including plural number.It will be further understood that in this specification The term " includes " and/or "comprising" used enumerate the existing feature stated, entirety, step, operation, component, element and/ Or their groups for forming, but do not preclude the presence or addition of other one or more features, entirety, step, operation, component, member Part and/or the group that they are formed.

Hereinafter, example will be described implementation of the disclosure referring to the schematic diagram for showing embodiment of the disclosure.In the accompanying drawings, For example, can estimate the modification of shown shape due to manufacturing technology and/or tolerance.Therefore, embodiment of the disclosure should not be by It is construed as limited to the specific shape in region being shown here, but should be interpreted for example including due to shape caused by manufacturing Change.The following examples can be also made of one or combinations thereof in embodiment.

Content of this disclosure described below can have a variety of constructions, only propose required construction here, but not limited to this.

The term about direction will be limited.Optical axis direction (that is, Z-direction) refers to the vertical direction about lens barrel, water Square refer to the direction vertical with optical axis direction (that is, Z-direction) to (that is, X-direction and Y direction).

Fig. 1 is the perspective view of general camera model according to the exemplary embodiment of the disclosure, and Fig. 2 is from that removes screens Cover the main view of the general camera model of cover.

Referring to Figures 1 and 2, the general camera model 10 with hand shaking compensation function is shown.As shown in Fig. 1 and Fig. 2 , general camera model 10 may include fixed part 11 and be oppositely disposed as the movable portion movable relative to fixed part 11 12, to realize hand shaking compensation function.In addition, fixed part 11 and movable portion 12 can have they are set in the direction of the optical axis it Between ball 14, therefore, movable portion 12 can move in a rolling manner on fixed part 11.Here, ball 14 can be partly It is inserted into and is arranged in fixed part 11 and in ball grooves (not shown) in the form of slot, and can be partially exposed to outer from fixed part 11 Portion.

In addition, fixed part 11 and movable portion 12 can be connected to each other by suspension wire 13, movable portion 12 can pass through suspension wire 13 It is supported to fixed part 11.

Meanwhile the lens barrel 15 including at least one lens may be provided in movable portion 12, magnet 12b may be provided at On the outer surface of movable portion 12 and for realizing automatic focusing function and anti-hand shaking function.Magnet 12b can be by using viscous Mixture bonds and is fixed to movable portion 12.

In addition, Infrared filter 450, which may be provided in fixed part 11, to be made by being arranged movable although being not shown In the path that the received light of lens in portion passes through.In addition, Infrared filter can be coupled on the bottom surface of fixed part 11, because This, the corner part of Infrared filter can cover the part provided with ball 14 in the direction of the optical axis.

In general camera model 10 with structure as described above, the bottom surface of movable portion 12 in the direction of the optical axis It can be worn by ball 14, therefore, foreign matter can be generated.In addition, ball 14 in such a manner the meeting of use so that being fixed to and pacifying Infrared filter on fixed part 11 can be damaged due to external impact.Further, since being arranged in movable portion 12 The fixed force of magnet 12b be dependent only on the bonding force of adhesive, fixed force may be smaller, and accordingly, there exist magnets to become Isolated risk.

Fig. 1 is the perspective view of general camera model according to the exemplary embodiment of the disclosure, and Fig. 3 is according to the disclosure The decomposition perspective view of the camera model of exemplary embodiment, Fig. 4 are the A-A ' line interceptions along Fig. 1 according to the exemplary of the disclosure The sectional view of the camera model of embodiment.

Referring to Fig.1, Fig. 3 and Fig. 4 discloses camera model 1000 according to the exemplary embodiment of the disclosure.Such as show , camera model 1000 accoding to exemplary embodiment may include lens module 200, movable portion 300, fixed part 400, ball 800, auto-focusing driving portion 510 and hand shaking compensation section 530.Lens module 200 may include lens barrel 210 and spool (bobbin)220.Movable portion 300 can accommodate lens module 200 wherein.Fixed part 400 may be configured as in optical axis direction It is upper to be separated with movable portion 300.Ball 800 may be provided between movable portion 300 and fixed part 400.Auto-focusing driving portion 510 can provide driving force for lens module 200.Hand shaking compensation section 530 can provide driving force for movable portion 300.In addition, can transport Dynamic portion 300 and fixed part 400 can be additionally connected to each other by multiple suspension wires 700, and therefore, movable portion 300 can be supported for It can relatively be moved about fixed part 400.

Lens barrel 210 can be in hollow cylindrical, so that multiple lens L for object to be imaged may be housed in wherein, And multiple lens L may be provided in lens barrel 210 to be arranged on optical axis.

The quantity of lens L in lens module 200 can change according to the design of lens module 200, and each lens L can have There is the optical characteristics of such as identical refractive index or different refractive index.

Lens barrel 210 can be coupled to spool 220.For example, lens barrel 210 can be accommodated in spool 220, to constitute Lens module 200.

Lens module 200 can be accommodated in movable portion 300, and can be in movable portion 300 in the direction of the optical axis The entirety that lens module 200 is contained in movable portion 300 therein can be (X-axis in the horizontal direction to focus automatically by movement Direction and Y direction) on it is movable, to compensate hand shaking.

In this case, movable portion 300 may be provided on fixed part 400, and its with fixed part 400 in light It can relatively be moved about fixed part 400 (that is, (X-axis side in the horizontal direction in the state of being separated in axis direction with scheduled spacing To and Y direction) on move).

Here, the construction of movable portion 300 will be described.Movable portion 300 may include driver framework 310 and yoke plate 320.It drives Dynamic frame 310 can form the external form main body of movable portion.Yoke plate 320 can be coupled to driver framework 310.

Driver framework 310 can have and make the open shape in side surface, so that the side surface of spool 220 is from driver framework 310 Exposure outward.

For example, driver framework 310 can include: braced frame 311, in the quadrangular shape with hollow portion；Column component 313, Extend in optical axis direction (Z-direction) from each turning of braced frame 311.

In addition, column component 313 may be provided with the socket 313a for being formed as channel-shaped in the direction of the optical axis.Magnet 520 can be slided It moves and is inserted into socket 313a.A pair of of socket 313a may be provided in the part facing with each other of column component 313, magnet 520 two ends can be plugged into socket 313a.In addition, socket 313a can also be provided at support although being not shown In frame 311.In addition, adhesive can be coated between socket 313a and magnet 520 to provide other adhesive force (see figure 6)。

Elastic component 600 can be coupled to drive member 310 to be elastically supported lens module 200.

Elastic component 600 may include First elastic component 610 and second elastic component 620.

For example, First elastic component 610 can be coupled to the top of driver framework 310 to support spool 220, the second elastic structure Part 620 may be provided at below driver framework 310 to support spool 220.

When lens module 200 moves in optical axis direction (Z-direction), First elastic component 610 and the second elastic structure Part 620 can be elastically supported lens module 200.

In addition, First elastic component 610 and second elastic component 620 can also be used to supporting lens module 200 as so that Lens module 200 is set as parallel with plane (X-Y plane) perpendicular to optical axis direction (Z-direction).

Yoke plate 320 may include hollow portion to prevent the interference of the movement with lens module 200 in the direction of the optical axis, and can set It sets below driver framework 310.

Yoke plate 320 may include yoke portion substrate 321 and support plate 323.Yoke portion substrate 321 can be in have in formed therein The four prism type in empty portion.Support plate 323 can be bent from yoke portion substrate 321 and be arranged between column component 313.

Shell (shielding case) 100 can be coupled to the outside of fixed part 400 and movable portion 300 to protect internal component.

Shell 100 can surround the outer surface of movable portion 300 and fixed part 400, and can be used for being blocked in driving camera mould The electromagnetic wave generated during block.

In the present example embodiment, shell 100 can be formed by metal material, to be connect by ground mat (not shown) Ground, therefore, shell 100 can stop electromagnetic wave.

In addition, conductive coating (not shown) can be coated to shell in the case where shell 100 is by plastic injection product formation On the inner surface of body 100, to stop electromagnetic wave.

For example, conductive epoxy resin is used as conductive coating (not shown), but the material of conductive coating is without being limited thereto.? That is conductive a variety of materials can be used, and conductive film or conductive tape can be integrated to the interior table of shell 100 Face.

Meanwhile camera model 1000 accoding to exemplary embodiment may include the auto-focusing drive as lens driving apparatus Dynamic portion 510 and hand shaking compensation section 530.

Auto-focusing driving portion 510 will be described first.Auto-focusing driving portion 510 can make lens module 200 in optical axis side It is moved in (Z-direction).Following proposal can be used in auto-focusing driving portion 510 so that lens module moves: utilizing line It encloses voice coil motor (VCM) scheme of the electromagnetic force between magnet, using the ultrasonic motor scheme of piezoelectric element and to shape The conducting wire of memorial alloy applies the scheme etc. of electric current.

Auto-focusing driving portion 510 may be provided between lens module 200 and movable portion 300, and can provide and make camera lens The driving force that module 200 moves in optical axis direction (Z-direction).

In the present example embodiment, auto-focusing driving portion 510 may include total magnet 520 and first coil 513.

As described above, magnet 520 is mountable in driver framework 310 altogether.In detail, magnet 520 is pluggable and solid altogether Surely the socket 313a of braced frame 311 is arrived.In addition, first coil 513 may be provided on the outer surface of spool 220.

Magnet 520 and first coil 513 can be arranged in (X-direction and Y direction) in the horizontal direction face each other altogether It is right.

Magnet 520 can form scheduled magnetic field altogether, when applying electric power to first coil 513, can by total magnet 520 with The generation driving force of electromagnetic interaction between first coil 513, to allow lens module 200 in optical axis direction (Z axis side To) on move.

It can be by making lens module 200 movable execute automatic focus or zoom function by operating as described above.

Next, hand shaking compensation section 530 will be described.

Hand shaking compensation section 530 can be used, to correct the factor due to the hand shaking of user when capturing image or moving image Caused image is fuzzy or moving image is shaken.

Hand shaking compensation section 530 can by make lens module 200 in the horizontal direction in (X-direction and Y direction) relatively Movement is to compensate hand shaking.

Hand shaking compensation section 530 may include total magnet 520 and the second coil 533.Magnet 520 may be provided at driver framework altogether In 310.Second coil 533 may be configured as in the direction (X-direction and Y direction) perpendicular to optical axis direction above to total magnet 520。

In the present example embodiment, the second coil 533 may be provided on the inner surface of shell 100, perpendicular to light Axial direction (X-direction and Y direction) is above to total magnet 520.In detail, the second coil 533 can be fixed to and set Set the substrate (not shown) on the inner surface of shell 100.

520 He of total magnet facing with each other is set as on the direction (X-direction and Y direction) perpendicular to optical axis direction Second coil 533 can be by the electromagnetic interaction between them in horizontal direction (X-direction and the Y vertical with optical axis direction Axis direction) on generate driving force.

Quantity in each of total magnet 520 and the second coil 533 can be at least two, and at least two total magnets May be configured as on the vertical direction of optical axis direction (Z-direction) with and its adjacent magnet it is orthogonal.

Due at least two coils 533 be set as the direction (X-direction and Y direction) vertical with optical axis direction above To at least two magnets 520, thus at least two coil 533 may be alternatively provided as on the direction vertical with optical axis direction with The coil adjacent with its is orthogonal.

Therefore, the electromagnetism phase between described at least two total magnets 520 and at least two second coil 533 can be passed through Interaction generates driving force in X-direction and Y direction.

In addition, Hall sensor (not shown) may be configured as the magnetic in sensing altogether magnet 520 adjacent with the second coil 533 The variation of flux.

Can be used the current location of movable portion 300 sensed by Hall sensor (not shown) information and can The information for the target position that movement portion 300 will move to controls the movement of movable portion 300.

Meanwhile settable multiple suspension wires 700, to support movable portion 300 (X-direction and Y direction) in the horizontal direction On movement.

Each of multiple suspension wires 700 can have one end fixed to fixed part 400 and fixed to elastic component 600 The other end.

Therefore, multiple suspension wires 700 can be limited in optical axis direction (Z-direction) and be set as movable portion separated from each other Gap between 300 and fixed part 400.

Groove 315 and 325 can be respectively formed at each corner of driver framework 310 Yu yoke plate 320, to prevent and suspension wire 700 interference.

In the case where user's hand shaking occurs, hand shaking compensation section 530 can be by making (the X-axis in the horizontal direction of movable portion 300 Direction and Y direction) on movement to compensate hand shaking.

Here, when being moved in movable portion 300 in the horizontal direction (X-direction and Y direction), it may appear that suspension wire 700 Bending etc. deformation.Therefore, movable portion 300 may tilt, it is thus possible to movement inclination occur.

In addition, existing in the case where the external impact for occurring falling etc. since the deformation of suspension wire 700 causes to go out Now move inclined risk.

Therefore, in camera model 1000 accoding to exemplary embodiment, can fixed part 400 and movable portion 300 it Between multiple balls 800 are set, with prevent as caused by the deformation of suspension wire 700 move inclination.

Multiple balls 800 may be provided between fixed part 400 and movable portion 300, to contact and support movable portion 300 With fixed part 400.

In this case, due to being set as in optical axis direction (Z-direction) in movable portion 300 and fixed part 400 In the state of being separated from each other, multiple suspension wires 700 support movable portion 300 and multiple balls 800 are arranged in 300 He of movable portion Therefore gap between fixed part 400 can be maintained at optical axis direction (Z axis side by multiple suspension wires 700 and multiple balls 800 To) on gap between movable portion 300 and fixed part 400.

Further, since one end and the other end each in multiple suspension wires 700 is respectively fixed to fixed part 400 and elastic component 600, therefore multiple balls 800 can keep the state contacted with movable portion 300 and fixed part 400, and will not be movable It is separated between portion 300 and fixed part 400.

In addition, movable portion 300 can also be in holding and fixed part in optical axis direction (Z axis even if producing external impact etc. Direction) on gap while supported by multiple balls 800, it is therefore possible to prevent the deformation of suspension wire 700.Therefore, movable Portion 300 can be parallel to horizontal direction (X-direction and Y direction) and be smoothly moved.

Meanwhile ball 800 can be partially inserted into movable portion 300, more specifically, ball grooves 317 may be provided at drive Bottom surface on the optical axis direction of dynamic frame 310 is simultaneously in the form of slot, also, ball 800 can be protruded partly, thus in fixed part It is moved in a rolling manner on 400 top surface.Ball grooves 317 can have the diameter bigger than the diameter of ball 800.Therefore, more A ball 800 can be in the state that they that will be described below contact with movable portion 300 and fixed frame 410 in ball grooves (see Fig. 7) is rolled in 317.

In addition, ball grooves 317 can be arranged in driver framework 310 column component 313 be located at optical axis direction below, With strengthened rigidity.In addition, at least part of ball grooves 317 can be prominent (that is, along directed downwardly from the bottom surface of movable portion 300 Optical axis direction is prominent from column component 313).

Meanwhile the driver framework 310 for constituting movable portion 300 can be in quadrangular shape, column component 313 may be provided at driving frame Each corner of frame 310.Therefore, ball grooves 317 can be arranged in naturally at the corner part of driver framework 310.

In addition, movable portion 300 and fixed part 400 can be in quadrangular shape, suspension wire 700 can have respectively and make fixed part and can The shape that the turning in movement portion 300 is connected to each other.

Fixed part 400 may include sensor housing 420 and screening cover 410 (see Fig. 8).Screening cover 410 can be coupled to sensing On the top surface of device shell 420.

Screening cover 410 can be formed by metal material (for example, stainless steel (SUS) etc.), and can be arranged such that ball 800 exists It is rollably moved on its top surface.Due to the rigidity with higher of screening cover 410 formed by metal material, it will not go out Now such as since the contact between screening cover 410 and ball 800 causes to lead to the problem of foreign matter.

Screening cover 410 may include planar surface portion 410a and engaging portion 410b.Planar surface portion 410a can be in optical axis direction On be integrated to the top surface of sensor housing 420.Engaging portion 410b can be along the side surface of sensor housing 420 in optical axis direction Upper extension, and it is hooked into the side surface of sensor housing 420.

In addition, the top surface of fixed part 400 can be in the even shape for not including protruding portion.Therefore, even if movable portion 300 Moved upwards on fixed part 400 in the side perpendicular to optical axis direction, will not motion parts 300 and fixed part 400 it Between generate interference.

Fig. 9 be show the state for making camera model according to the exemplary embodiment of the disclosure be integrated to substrate decomposition it is saturating View, Figure 10 are the assembly perspectives for showing the state for making camera model according to the exemplary embodiment of the disclosure be integrated to substrate Figure.

Referring to Fig. 9 and Figure 10, the substrate 900 for being disposed thereon imaging sensor 910 can be integrated in the direction of the optical axis The bottom of camera model 1000 according to the exemplary embodiment of the disclosure.Imaging sensor 910 can be with setting in camera model Camera lens in 1000 is aligned in the direction of the optical axis.

Figure 11 be include camera model according to the exemplary embodiment of the disclosure portable electronic device perspective view.

Referring to Fig.1 1, portable electronic device accoding to exemplary embodiment may include main part 3000 and camera model 1000。

Camera model 1000 can have whole features of above-mentioned camera model accoding to exemplary embodiment, and can be coupled to Main part 3000.

As set forth above, according to an exemplary embodiment of the present disclosure, it is possible to provide one kind can prevent foreign matter, can prevent It damages Infrared filter and the camera model of the fixed force of magnet can be improved.

Although having been shown and described above exemplary embodiment, it will be apparent to one skilled in the art that not In the case where being detached from the scope of the present invention defined by claim, modifications and variations can be made.

Claims (15)

1. a kind of camera model, comprising:

Fixed part；

Movable portion is configured to relatively move about fixed part；

Ball is partially inserted into ball grooves in the form of slot and being arranged in below movable portion, and partly downward dashes forward Out,

Wherein, the camera model further includes the screening cover being arranged on the top surface of the fixed part, and the ball is shielding It is moved in a rolling manner on the top surface of lid,

Wherein, screening cover includes the flat surfaces of the optical axis direction below the ball and perpendicular to the camera model Portion, ball move in a rolling manner on planar surface portion.

2. camera model according to claim 1, wherein the screening cover is formed by metal material.

3. camera model according to claim 1, wherein the screening cover further includes from planar surface portion along optical axis direction The multiple engaging portions extended downwardly, the multiple engaging portion are hooked into fixed part.

4. camera model according to claim 1, wherein bottom surface of at least part of the ball from movable portion It is prominent.

5. camera model according to claim 1, wherein the movable portion supports to fixed part by suspension wire.

6. camera model according to claim 1, wherein the movable portion is in quadrangular shape,

Each corner of the bottom surface of movable portion is arranged in the ball grooves.

7. camera model according to claim 5, wherein the movable portion and fixed part are in quadrangular shape,

The suspension wire has the shape for making the turning of fixed part and movable portion be connected to each other respectively.

8. camera model according to claim 1, wherein the movable portion be include saturating at least one lens The driver framework of mirror lens barrel.

9. camera model according to claim 8, wherein the driver framework is in quadrangular shape,

Magnet is provided in the surface portion for forming driver framework.

10. camera model according to claim 9, wherein be provided in the surface portion for forming driver framework in slotting The placement department of channel-shaped,

The magnet is inserted into placement department.

11. camera model according to claim 10, wherein be coated with adhesive between placement department and magnet.

12. camera model according to claim 9, wherein the magnet is in face of the coil and use for focusing automatically In the total magnet of the coil of hand shaking compensation, the coil for focusing automatically is fixed in the shape around lens barrel Lens barrel, in the housing, the shell is integrated to fixed part while covering driving for the coil setting for hand shaking compensation Frame.

13. camera model according to claim 1, wherein the fixed part includes Infrared filter, the infrared filtering Device is arranged in the path for making to be passed through using the received light of lens being arranged in movable portion.

14. a kind of camera model, comprising:

Hand shaking compensation section, including fixed part and be supported for can about the movable portion that fixed part relatively moves,

Wherein, the hand shaking compensation section includes ball, is inserted into the form of slot and movable portion is arranged in the ball part In following ball grooves, and partly downward protrude,

Wherein, the camera model further includes the screening cover being arranged on the top surface of the fixed part, and the ball is shielding It is moved in a rolling manner on the top surface of lid,

Wherein, screening cover includes the flat surfaces of the optical axis direction below the ball and perpendicular to the camera model Portion, ball move in a rolling manner on planar surface portion.

15. camera model according to claim 14, wherein the screening cover further includes from planar surface portion along optical axis side To the multiple engaging portions extended downwardly, the multiple engaging portion is hooked into fixed part.