CN207516622U - Camera lens module - Google Patents

Abstract

A kind of camera lens module, including lens barrel, first assembly, at least pedestal, one first axostylus axostyle, at least an elastic component and driver.The lens barrel includes an at least eyeglass, and the eyeglass forms optical axis.The first assembly is connect with the peripheral part of the lens barrel.The pedestal includes substrate and a plurality of the first side walls, and the substrate and these the first side walls form an accommodating space, and the accommodating space is to house the lens barrel, and these the first side walls have at least one first hole.First axostylus axostyle is arranged in first hole, and it is axial to form one vertical with the optical axis.One end of the elastic component is fixedly arranged on the pedestal, and the other end is fixedly arranged on the first assembly, and the first assembly is made to be reset fixation relative to the pedestal.The driver is driving the lens barrel to carry out start along the axial of first axostylus axostyle.

Description

Camera lens module

Technical field

The utility model particularly relates to a kind of camera lens module for Optical devices about a kind of camera lens module.

Background technology

Known electronic device (such as mobile phone) often carries a camera lens module, which is used for image capture.But phase When the camera lens module of part does not have the functions such as auto-focusing or optical anti-shake, during electronic device is used, often It can lead to image blur because of vibrations or other reasons, it is impossible to meet today for functions such as auto-focusing or optical anti-shakes Demand.

Utility model content

The technical problems to be solved in the utility model is, for the drawbacks described above of the prior art, to provide a kind of camera lens module, The camera lens module realizes the functions such as auto-focusing or optical anti-shake by the guide rail structure in it.

The utility model is to solve its technical problem the technical scheme adopted is that providing an a kind of implementation of camera lens module Example, including lens barrel, first assembly, at least pedestal, one first axostylus axostyle, at least an elastic component and driver.The lens barrel is included extremely A few eyeglass, and the eyeglass forms optical axis.The first assembly is connect with the peripheral part of the lens barrel.The pedestal is including substrate and again Several the first side walls, wherein, these the first side wall systems are relatively arranged on the substrate, and the substrate and these the first side walls form one and hold Between emptying, the accommodating space system is to house the lens barrel, and these the first side walls have at least one first hole.First axostylus axostyle First hole is arranged in, forms the axial direction vertical with the optical axis.One end of the elastic component is fixedly arranged on the pedestal, and the other end is fixed In the first assembly, the first assembly is made to be reset fixation relative to the pedestal.The driver is driving the lens barrel along this The axial of first axostylus axostyle carries out start.

In another embodiment, which includes a plurality of second sidewalls for being oppositely arranged, and these second sidewalls With at least one second hole.

In another embodiment, which is arranged in first hole and second hole respectively, second hole It is oppositely arranged with first hole.When first hole and first axostylus axostyle are affixed, then the aperture of second hole, which is more than, is somebody's turn to do The diameter of first axostylus axostyle；Alternatively, when second hole and first axostylus axostyle are affixed, then the aperture of first hole be more than this The diameter of one axostylus axostyle.Wherein, which drives the first assembly to drive the lens barrel along the optical axis direction start, and drive this One component drives axial start of the lens barrel along first axostylus axostyle；Alternatively, the driver drives the pedestal to drive first axostylus axostyle Make the lens barrel along the optical axis direction start, and drive the pedestal that first axostylus axostyle is driven to make axial direction of the lens barrel along first axostylus axostyle Start.

In another embodiment, the utility model further includes a plurality of locating parts and at least one second axostylus axostyle.These limits Position part is located between the first assembly and the pedestal, and perforates with vertical with the optical axis first and parallel with the optical axis Second perforation, wherein, which is arranged in first hole and first perforation respectively, these locating parts be sheathed on this One axostylus axostyle.Second axostylus axostyle is arranged in second perforation, and its both ends is arranged in second hole respectively, wherein, second hole Hole is parallel with the optical axis and is oppositely arranged, these locating parts are sheathed on second axostylus axostyle.Wherein, which drives this first group Part drives the lens barrel along the optical axis direction start, and drives the first assembly that the lens barrel is driven to make along the axial direction of first axostylus axostyle It is dynamic；Alternatively, the driver drives the pedestal that first axostylus axostyle is driven to make the lens barrel along the optical axis direction start, and drive the pedestal First axostylus axostyle is driven to make axial start of the lens barrel along first axostylus axostyle.

In another embodiment, when first hole and first axostylus axostyle are affixed, then the aperture of first perforation is more than The diameter of first axostylus axostyle；Alternatively, when first perforation is affixed with first axostylus axostyle, then the aperture of first hole, which is more than, is somebody's turn to do The diameter of first axostylus axostyle.

In another embodiment, the utility model further includes housing, to house the lens barrel and the pedestal, and with first Opening portion, wherein, first opening on the housing towards and be parallel to the end face of the substrate, when the housing houses this During lens barrel, the end face of the lens barrel has the end face of first opening portion towards the housing.

In another embodiment, which further includes the second opening portion, and second opening is in the first assembly Upper direction and the end face for being parallel to the substrate, wherein, the maximum electrical path length system of second opening portion is more than first opening portion Maximum electrical path length and the lens barrel outer diameter length, the maximum electrical path length of first opening portion is more than the outer diameter length of the lens barrel.

In another embodiment, the utility model further includes one and is axially mutually perpendicular to the optical axis and first axostylus axostyle, by This is axial sequentially comprising the housing, the first assembly, the lens barrel and the pedestal；First opening portion is connect with the first assembly, The first assembly has the first joint face to connect with the lens barrel, which has the second joint face to connect with the lens barrel.

In another embodiment, by the axial direction of first axostylus axostyle sequentially comprising the housing, the first side wall, this first group Part, the substrate and the lens barrel；The inner face of the housing is connect with the first side wall and the first assembly, the first assembly and the mirror Cylinder has the connection of the first contact surface.

In another embodiment, rectified by object regard the frame shape of the lens barrel can be to be non-circular.

In another embodiment, the substrate and the first side wall, the lens barrel and the first assembly, the first side wall and this At least one set is configured as integrally formed in one three groups of axostylus axostyle.

In another embodiment, the substrate and the first side wall, the lens barrel and the first assembly, the first side wall and this At least one set is configured as integrally formed in four groups of one axostylus axostyle, the first assembly and second axostylus axostyle.

Implement the camera lens module of the utility model, have the advantages that：It can be realized by the guide rail structure in it The functions such as auto-focusing or optical anti-shake.

Description of the drawings

Above and other objects, features and advantages in order to allow the utility model can be clearer and more comprehensible, it is cited below particularly go out reality It applies example and attached drawing is coordinated to elaborate.

Fig. 1 is the stereogram of the first embodiment of the utility model camera lens module.

Fig. 2 is the exploded view of the camera lens module in Fig. 1.

Fig. 3 is the stereogram of first assembly, pedestal, elastic component and guide rail structure after assembling in Fig. 2.

Fig. 4 is the stereogram of lens barrel, first assembly, pedestal, elastic component and guide rail structure after assembling in Fig. 2.

Fig. 5 is the front view of the second embodiment of the utility model camera lens module.

Fig. 6 is the side view of the camera lens module in Fig. 5.

Fig. 7 is the exploded view of the camera lens module in Fig. 5.

Fig. 8 is the exploded view of the 3rd embodiment of the utility model camera lens module.

Specific embodiment

Please refer to Fig.1,2, the camera lens module 10 of the utility model first embodiment includes lens barrel 12, first assembly 14, base Seat 16,22 and two set drive (not being painted) of the guide rail structure 20, four of housing 18, two elastic component.Wherein, lens barrel 12 can be by It is moved by these guide rail structures 20 along a default direction.The assembling of these components described further below：

Lens barrel 12 includes an at least eyeglass, and the eyeglass forms optical axis (not being painted).Specifically, rectified by object regarding (i.e. Faced along the optical axis) frame shape of the lens barrel 12 can be non-circular.As shown in Fig. 2, pedestal 16 includes substrate 161 and two A the first side wall 163, these the first side walls 163 are towards the direction of first assembly 14 and are relatively arranged on substrate 161, these first Side wall 163 is vertical with substrate 161, and each the first side wall 163 has the first hole 361 and the first mounting portion 363.Its In, substrate 161 forms accommodating space with these the first side walls 163, and the accommodating space is to accommodating lens barrel 12.Each guide rail knot Structure 20 all includes the first axostylus axostyle 201, the second axostylus axostyle 203 and locating part 205.Locating part 205 has the first perforation 501 and the Two perforation 503, the first perforation 501 are mutually perpendicular to the second perforation 503.First assembly 14 is with towards the direction of pedestal 16 and relatively Two second sidewalls, 141 and second opening portion 143 of setting, each second sidewall 141 have two the second holes 411 with And second mounting portion 413, and the second opening portion 143 is located at the end face that substrate 161 is parallel in first assembly 14.Every group of driving Device all includes a magnetite (not being painted) and a coil (not being painted).In first embodiment, on housing 18 towards pedestal 16 (or Be parallel to substrate 161) end face have the first opening portion 181.In first embodiment, the magnetite of the first set drive, Magnetic pole distribution is, the magnetite of second set drive parallel with the first axostylus axostyle, and magnetic pole distribution is parallel with optical axis direction.

Wherein, the aperture of the first hole 361 is generally equal to diameter (i.e. the first hole 361 and of the first axostylus axostyle 201 Between one axostylus axostyle 201 be tight fit), first perforation 501 aperture be more than the first axostylus axostyle 201 diameter (i.e. first perforation 501 and It is loose fit between first axostylus axostyle 201), the aperture of the second hole 411 is generally equal to the diameter of the second axostylus axostyle 203 (i.e. the It is tight fit between two holes 411 and the second axostylus axostyle 203), and the aperture of the second perforation 503 is more than the diameter of the second axostylus axostyle 203 (being loose fit between the i.e. second perforation 503 and the second axostylus axostyle 203).Specifically, the first hole 361, first perforation 501, the Two holes 411 and the second perforation 503 are all round.If in short, the first hole 361, first perforate the 501, second hole 411 or The aperture of second perforation 503 is roughly the same with the diameter of the first axostylus axostyle 201 or the second axostylus axostyle 203, then will generate close-fitting between the two It closes.If the first hole 361, first is perforated the aperture of the 501, second hole 411 or the second perforation 503 be more than the first axostylus axostyle 201 or The diameter of second axostylus axostyle 203, then will generate loose fit between the two.

Further illustrate, when the first hole 361, first perforate the 501, second hole 411 or the second perforation 503 aperture with When the ratio of the diameter of first axostylus axostyle 201 or the second axostylus axostyle 203 is more than 0.8, the effect of tight fit is generated, in the feelings of tight fit Under condition, remain fixed between the two, when the ratio is more bordering on 1 if more fasten, when the first hole 361, first perforate 501, The ratio in the aperture and the first axostylus axostyle 201 or the diameter of the second axostylus axostyle 203 of the second hole 411 or the second perforation 503 is equal to or small When 0.8, the effect of loose fit is generated, in the case of loose fit, the two can relatively move.

Please refer to Fig. 3,4, during assembling, according to aforementioned elastic configuration, the first hole is fixed in one end of the first axostylus axostyle 201 361, and its other end is then movably arranged in the first perforation 501 (i.e. locating part 205 is sheathed on the first axostylus axostyle 201).Second Axostylus axostyle 203 is movably arranged in the second perforation 503 (i.e. locating part 205 is sheathed on the second axostylus axostyle 203), and the second axostylus axostyle 203 Both ends be individually fixed in these the second holes 411, so as to make these locating parts 205 be located at first assembly 14 and pedestal 16 it Between.If such setting, first assembly 14 can be along the axial direction of the first axostylus axostyle 201 (i.e. perpendicular to the light with these locating parts 205 The direction of axis) moved relative to pedestal 16, and its moving range the first side wall 163 will be abutted to because of locating part 205 and by Limitation.First assembly 14 can more be limited along the axial direction (direction for being parallel to the optical axis) of the second axostylus axostyle 203 relative to these Part 205 is moved with pedestal 16, and its moving range will be restricted because second sidewall 141 abuts to locating part 205.Work as mirror When cylinder 12 is set to the accommodating space, first assembly 14 will be connect with the peripheral part of lens barrel 12, and the first perforation 501 is hung down with the optical axis Directly, and the second perforation is 503 parallel with the optical axis.

Again as shown in figure 3, the magnetite, which is set to the first mounting portion 363 and the magnetic pole distribution of magnetite, is put down with the first axostylus axostyle Row, and the coil is set to the second mounting portion 413.It is noted that the coil and magnetite setting opposing one another, and the coil Area is less than the area of the magnetite.When electric current is by the coil, the Lorentz force (Lorentz Force) of the magnetite is by convection current Electric current through the coil acts, first assembly 14 to be driven to be moved relative to pedestal 16.In addition to this, each elastic component 22 With first end 221 and second end 223, first end 221 is fixedly arranged on pedestal 16, and second end 223 is fixedly arranged on first assembly 14, so as to Make the first assembly moved 14 that can be reset relative to pedestal 16 fixation.Wherein, these elastic components 22 are in strip, and are had S types are presented in meander in the present embodiment.In first embodiment, the second magnetite of another set drive is set to relatively The first mounting portion on another the first side wall, magnetic pole distribution is parallel with optical axis.

Again as shown in Figure 1, lens barrel 12, first assembly 14, pedestal 16, these guide rail structures 20, these bullets for being completed Property part 22 and these drivers be finally then placed in housing 18.Specifically, the size of the first opening portion 181 is big In the external dimensions of the corresponding part of lens barrel 12, and the size of the second opening portion 143 is more than the size and mirror of the first opening portion 181 The external dimensions of the corresponding part of cylinder 12, i.e. the external dimensions tool of the corresponding part of the size and lens barrel 12 of the second opening portion 143 There is a ratio A, the size of the second opening portion 143 and the size of the first opening portion 181 have a ratio B, the ruler of the first opening portion 181 The external dimensions of the very little corresponding part with lens barrel 12 has a ratio C, and ratio A, B, C are all more than 1, and ratio A, B, C are presented A and are more than B is more than the relationship of C.Therefore, after camera lens module 10 is completed, lens barrel 12 is towards the end face (top shown in Fig. 2 of housing 18 End surface) the first opening portion 181 or the second opening portion 143 will be exposed to.

The definition of first opening portion, 181 its size is axial and the optical axis and the orthogonal housing of the first axostylus axostyle Opening area, the definition of 143 its size of the second opening portion are axial and the optical axis and first axostylus axostyle orthogonal first Component opening area, it is defined as the external dimensions of the corresponding part of lens barrel 12, protrudes from the end face of first assembly opening area Area.

When operating camera lens module 10, the second set drive can drive first assembly 14 to move with band moving lens barrel 12 along parallel It is moved in the direction of the optical axis relative to pedestal 16, the first set drive can then drive first assembly 14 and these locating parts 205 It is moved along perpendicular to the direction of the optical axis relative to pedestal 16, and then camera lens module 10 is made to be achieved optical anti-shake In other words the function of (Optical Image Stabilization) and auto-focusing (Auto Focus), are real when first group During existing optical anti-shake (Optical Image Stabilization), second group then to realize auto-focusing (Auto Focus).Subsidiary one carries, and aforesaid operations process is it can be appreciated that on the one hand these drivers can drive pedestal 16 and these limits Position part 205 is moved to be moved with moving lens barrel 12 along the direction for being parallel to the optical axis relative to first assembly 14, on the other hand Pedestal 16 can be driven to be moved along perpendicular to the direction of the optical axis relative to first assembly 14 and these locating parts 205.

Wherein, substrate 161 can be one of the forming with the first side wall 163；Lens barrel 12 can be one of the forming with first assembly 14； The first side wall 163 can be one of the forming with the first axostylus axostyle 201；Alternatively, 14 and second axostylus axostyle 203 of first assembly can be integrated into Shape.

It is understood that other than aforementioned elastic configuration, according to the 501, second hole of the first hole 361, first perforation The difference of aperture and the first axostylus axostyle 201 of the perforation of hole 411 or second 503 or the diameter of the second axostylus axostyle 203, can also be formed other three The elastic configuration of kind, such as：It is loose fit between (one) first axostylus axostyle 201 and the first hole 361, is between the first perforation 501 Tight fit, and be loose fit between the second axostylus axostyle 203 and the second hole 411, it is tight fit between the second perforation 503.(2) It is tight fit between first axostylus axostyle 201 and the first hole 361, is loose fit between the first perforation 501, and the second axostylus axostyle 203 It is loose fit between the second hole 411, is tight fit between the second perforation 503.(3) first axostylus axostyles 201 and the first hole It is loose fit between 361, is tight fit between the first perforation 501, and is tight between the second axostylus axostyle 203 and the second hole 411 It is loose fit between cooperation, with the second perforation 503.It is worth noting that, either take which kind of elastic configuration, camera lens module 10 It can illustrate to be operated according to aforementioned.

It will also be appreciated that first assembly 14 and the structure of pedestal 16 can be all exchanged with each other, such as：First side Wall 163 can have the second mounting portion 413, and second sidewall 141 can have the first mounting portion 363；Alternatively, the first side wall 163 can With these the second holes 411, and second sidewall 141 can have the first hole 361.It is noted that even if first assembly 14 with The structure of pedestal 16 is exchanged with each other, and camera lens module 10 still can illustrate to be operated according to aforementioned.Wherein, rectified by object and regarded The frame shape of (being faced along the optical axis) lens barrel can be circle, and housing can also not have the first opening portion 181.

Please refer to Fig. 5~7, the camera lens module 10 ' of the utility model second embodiment including lens barrel 12 ', first group Part 14 ', pedestal 16 ', housing 18 ', two guide rail structures, four elastic components 22 ' and two set drives (not being painted).Lens barrel 12 ' include an at least eyeglass, and the eyeglass forms optical axis (not being painted).As shown in fig. 7, pedestal 16 ' including substrate 161 ' and Two the first side walls 163 ', these the first side walls 163 ' are towards the direction of first assembly 14 ' and are relatively arranged on substrate 161 ', this A little the first side walls 163 ' are vertical with substrate 161 ', and each the first side wall 163 ' has two the first holes 361 ' and first Mounting portion 363 '.Each guide rail structure includes two the first axostylus axostyles 201 '.First assembly 14 ' has towards the direction of pedestal 16 ' And two second sidewalls 141 ' being oppositely arranged, and each second sidewall 141 ' has the second hole 411 ' and the second installation Portion 413 '.In second embodiment, the magnetite of the first set drive, magnetic pole distribution is, second group drive parallel with the first axostylus axostyle The magnetite of dynamic device, magnetic pole distribution is parallel with optical axis.

Wherein, the aperture of the first hole 361 ' is generally equal to diameter (i.e. the first axostylus axostyle 201 ' of the first axostylus axostyle 201 ' It is tight fit between the first hole 361 '), and the aperture of the second hole 411 ' is more than the diameter (i.e. first of the first axostylus axostyle 201 ' It is loose fit between axostylus axostyle 201 ' and the second hole 411 ').Specifically, the second hole 411 ' is long hole shape, and the first hole 361 ' is can be with the circles of 201 ' tight fit of the first axostylus axostyle.

It further illustrates, when the first hole 361 ', the aperture of the second hole 411 ' and the ratio of the diameter of the first axostylus axostyle 201 ' When value is more than 0.8, the effect of tight fit is generated, in the case of tight fit, is remained fixed between the two, if the ratio is more It is then more fastened when being bordering on 1, when ratio of diameter of the first hole 361 ', the aperture of the second hole 411 ' and the first axostylus axostyle 201 ' etc. When 0.8, the effect of loose fit is generated, in the case of loose fit, the two can relatively move.

Again as shown in figure 5, each first axostylus axostyle 201 ' has first end 101 ' and second end 103 '.During assembling, root According to aforementioned elastic configuration, these first ends 101 ' are individually fixed in these the first holes 361 ', and these second ends 103 ' are then Movably it is arranged in the second hole 411 '.If such setting, these drivers on the one hand can drive first assembly 14 ' along The axial direction (i.e. perpendicular to the direction of the optical axis) of first axostylus axostyle 201 ' is mobile relative to pedestal 16 ', on the other hand can also drive the One component 14 ' is mobile relative to pedestal 16 ' along the direction for being parallel to the optical axis.Specifically, first assembly 14 ' Moving range is equivalent to these movings range of first axostylus axostyle 201 ' in the second hole 411 '.

It is worth noting that, even if each guide rail structure only includes 201 ' (relatively, each first side of the first axostylus axostyle Wall 163 ' also can only have there are one the first hole 361 '), camera lens module 10 ' still can illustrate to be operated according to aforementioned. In second embodiment, using being intended for two the first axostylus axostyles 201 ', make first assembly 14 ' mobile relative to pedestal 16 ' When can more stablize.

Wherein, substrate 161 ' can be one of the forming with the first side wall 163 '；Lens barrel 12 ' can be integrated with first assembly 14 ' Forming；Alternatively, the first side wall 163 ' can be one of the forming with the first axostylus axostyle 201 '.

Similarly, other than aforementioned elastic configuration, according to the aperture of the first hole 361 ' or the second hole 411 ' and the The difference of the diameter of one axostylus axostyle 201 ' can also form another elastic configuration, such as：First axostylus axostyle 201 ' and the first hole 361 ' Between between loose fit, with the second hole 411 ' be tight fit.In other words, first hole be long hole shape, and the second hole For can be with the circle of 201 ' tight fit of the first axostylus axostyle.The setting of remaining component is similar with aforementioned first embodiment with operating, therefore not It repeats herein.Wherein, rectify that regard and (faced along the optical axis) frame shape of lens barrel can be round, and housing also may not be used by object With the first opening portion 181.

Referring to Fig. 8, the camera lens module 10 " of the utility model 3rd embodiment includes lens barrel 12 ", first assembly 14 ", base Seat 16 ", housing 18 ", two guide rail structures 20 ", four elastic components 22 " and two set drives (not being painted).Wherein, by object end The frame shape for facing and (being faced along the optical axis) lens barrel 12 " is circle, and housing 18 " is without opening portion.Remaining component Setting and operation it is similar with aforementioned first embodiment, therefore do not repeat herein.In addition to this, although third as seen from Figure 8 Embodiment (i.e. camera lens module 10 ") is changed by first embodiment, and those skilled in the art is to be understood that The structure feature of 3rd embodiment also may be implemented in second embodiment.

One axial (not being painted) is further included in above-described embodiment, which is mutually perpendicular to the optical axis and first axostylus axostyle, It is axial sequentially comprising the housing, the first assembly, the lens barrel and the pedestal by this；The first assembly has first to connect with the lens barrel Face (is not painted) secure bond, the substrate and the lens barrel can have one second joint face (not being painted) contact or the substrate with should Lens barrel is contactless.It sequentially comprising the housing, the first side wall, the first assembly, the substrate and is somebody's turn to do by the axial direction of first axostylus axostyle Lens barrel；One inner face of the housing is contacted with the first side wall and the first assembly, which has the first company with the lens barrel Junction secure bond.

Substrate in above-described embodiment can be made of metal material.

Driver in above-described embodiment also can be voice coil motor or piezoelectricity other than magnetite and coil are oppositely disposed Material is replaced.

Two set drive magnetic poles distribution in above-described embodiment can also exchange configuration.

The first hole and the second hole in above-described embodiment can be groove or perforative perforation.

Claims (13)

1. a kind of camera lens module, which is characterized in that including：

Lens barrel, including an at least eyeglass, and the eyeglass forms optical axis；

First assembly is connect with the peripheral part of the lens barrel；

Pedestal, including substrate and a plurality of the first side walls, wherein, these the first side walls are relatively arranged on the substrate, the substrate And these the first side walls form accommodating space, the accommodating space is to house the lens barrel, and these the first side walls have at least one First hole；

At least one first axostylus axostyle is arranged in first hole, forms the axial direction vertical with the optical axis；

An at least elastic component, one end are fixedly arranged on the pedestal, and the other end is fixedly arranged on the first assembly, make the first assembly relative to this Pedestal is reset fixation；

Driver, the lens barrel to be driven to carry out start along the axial of first axostylus axostyle.

2. camera lens module as described in claim 1, which is characterized in that the first assembly includes be oppositely arranged a plurality of second Side wall, and these second sidewalls have at least one second hole.

3. camera lens module as claimed in claim 2, which is characterized in that first axostylus axostyle is arranged in first hole with being somebody's turn to do respectively Second hole, second hole are oppositely arranged with first hole；

When first hole and first axostylus axostyle are affixed, then the aperture of second hole is more than the diameter of first axostylus axostyle；Or Person, when second hole and first axostylus axostyle are affixed, then the aperture of first hole is more than the diameter of first axostylus axostyle；

Wherein, which drives the first assembly to drive the lens barrel along the optical axis direction start, and drives the first assembly band Move axial start of the lens barrel along first axostylus axostyle；Alternatively, the driver drives the pedestal that first axostylus axostyle is driven to make the lens barrel Along the optical axis direction start, and drive the pedestal that first axostylus axostyle is driven to make axial start of the lens barrel along first axostylus axostyle.

4. camera lens module as claimed in claim 2, which is characterized in that further include：

A plurality of locating parts, these locating parts are located between the first assembly and the pedestal, and with vertical with the optical axis the One perforation and parallel with the optical axis second perforation, wherein, first axostylus axostyle be arranged in respectively first hole with this first Perforation, these locating parts are sheathed on first axostylus axostyle；And

At least one second axostylus axostyle is arranged in second perforation, and its both ends is arranged in second hole respectively, wherein, this second Hole is parallel with the optical axis and is oppositely arranged, these locating parts are sheathed on second axostylus axostyle；

Wherein, which drives the first assembly to drive the lens barrel along the optical axis direction start, and drives the first assembly band Move axial start of the lens barrel along first axostylus axostyle；Alternatively, the driver drives the pedestal that first axostylus axostyle is driven to make the lens barrel Along the optical axis direction start, and drive the pedestal that first axostylus axostyle is driven to make axial start of the lens barrel along first axostylus axostyle.

5. camera lens module as claimed in claim 4, which is characterized in that when first hole and first axostylus axostyle are affixed, then The aperture of first perforation is more than the diameter of first axostylus axostyle；Alternatively, when first perforation is affixed with first axostylus axostyle, then should The aperture of first hole is more than the diameter of first axostylus axostyle.

6. such as camera lens module described in any one of claim 1 to 5, which is characterized in that further include：

Housing, to house the lens barrel and the pedestal, and with the first opening portion, wherein, first opening is in the housing Upper direction and the end face for being parallel to the substrate, when the housing houses the lens barrel, the end face of the lens barrel has towards the housing There is the end face of first opening portion.

7. camera lens module as claimed in claim 6, which is characterized in that the first assembly further includes the second opening portion, this second Opening in the first assembly towards and be parallel to the end face of the substrate, wherein, the maximum path length of second opening portion Degree is more than more than the maximum electrical path length of first opening portion and the outer diameter length of the lens barrel, the maximum electrical path length of first opening portion The outer diameter length of the lens barrel.

8. camera lens module as claimed in claim 6, which is characterized in that further include an axial direction and the optical axis and the first axostylus axostyle phase It is mutually vertical, it is axial sequentially comprising the housing, the first assembly, the lens barrel and the pedestal by this；The first assembly has with the lens barrel One first joint face secure bond.

9. camera lens module as claimed in claim 6, which is characterized in that by first axostylus axostyle axial direction sequentially comprising the housing, The first side wall, the first assembly, the substrate and the lens barrel；One inner face of the housing and the first side wall and the first assembly Contact, the first assembly have the first joint face secure bond with the lens barrel.

10. such as camera lens module described in any one of claim 1 to 5, which is characterized in that rectify the frame shape regarding the lens barrel by object Shape is non-circular.

11. the camera lens module as described in claim 1,2 or 4, which is characterized in that the substrate and the first side wall, the lens barrel with At least one set is configured as integrally formed in three groups of the first assembly, the first side wall and first axostylus axostyle.

12. camera lens module as claimed in claim 4, which is characterized in that the substrate and the first side wall, the lens barrel and this first At least one set is configured as one in four groups of component, the first side wall and first axostylus axostyle, the first assembly and second axostylus axostyle Forming.

13. camera lens module as described in claim 1, which is characterized in that the driver is electromagnetic driver, including at least one Magnetite and an at least coil, and the lens barrel to be driven to carry out start along the axial of first axostylus axostyle.