CN108068035B - Eyeglass clamping device for camera module assembling - Google Patents

Abstract

The invention discloses a kind of eyeglass clamping devices for camera module assembling, hollow support body and probe including fixed part, both ends open, the fixed part is mutually permanently connected with the hollow support body, the hollow support body bottom is equipped with annular flange, the inside of the annular flange is equipped with the convex block for fixing camera module, channel is additionally provided on hollow support body, the probe passes through the channel and carries out intense adjustment to the position of the eyeglass of the camera module assembling under the convex block.This clamping device can assist realizing the position to eyeglass in camera module group lens and the adjustment of posture.

Description

Eyeglass clamping device for camera module assembling

Technical field

The present invention relates to a kind of eyeglass clamping devices for lens assembling in mobile phone camera module, more particularly to one kind to exist For adjusting lens position clamping device when assembling the camera lens of mobile phone camera module.

Background technique

Mobile phone camera module is mainly made of motor, camera lens, sensitive chip etc., and camera lens therein mainly by lens barrel, Eyeglass composition.It is higher to the installation site required precision of eyeglass when eyeglass is installed in lens barrel, if eyeglass cannot be installed accurately, It will lead to camera module image blur.

Disclosed in Chinese patent 201510512903.2 it is a kind of in mobile phone camera module assembling process to camera lens into The jig of row active alignment absorption.The patent essentially discloses the adsorbent equipment for adsorbing the camera lens in camera module, this Adsorbent equipment is in cone shape, and lower end is contacted with the camera lens in the camera module that will be assembled, and upper end connects vacuum plant.By Camera lens in camera module to be assembled is adsorbed in the lower end of this adsorbent equipment by this negative pressure generated by vacuum plant, To implement alignment, positioning and fixing.

This adsorbent equipment is to be directed to the camera lens of entire camera module and design, and the function of being realized is also to pass through absorption Camera lens and realize that alignment adjusts and camera lens is mounted in mould group, but this adsorbent equipment can not be completed to single in camera lens The position of eyeglass is adjusted

Summary of the invention

It is an object of the invention to propose a kind of eyeglass clamping device for camera module assembling, for not influencing quilt In the case that camera module field angle is installed, allow to be adjusted mounted eyeglass.

The present invention provides a kind of eyeglass clamping devices for camera module assembling, including fixed part, both ends open Hollow support body and probe, the fixed part is mutually permanently connected with the hollow support body, the hollow support body bottom Portion is equipped with annular flange, and the inside of the annular flange is equipped with the convex block for pushing down camera module, also sets on hollow support body There is channel, the probe passes through channel and carries out position adjustment to the eyeglass in the camera module of underbump.

Preferably, hollow support body is in hollow taper shape, inverted centrum is equipped in hollow support body and is open, vertebra The angle of body opening is greater than the field angle of camera lens in camera module to be assembled, described in the assembling process of camera module in Empty supporting mass will not shelter from the eyeglass in camera lens.

Preferably, the convex block two are one group, three groups of isogonisms in the annular flange are at least arranged in alternate setting Spend the uniformly distributed convex block, the angle of the angle between convex block described in the longitudinally asymmetric center line and two adjacent groups of the fixed part Bisector alignment.

Preferably, the probe and the channel are set as four groups with corresponding to each other.

Preferably, the annular flange and the hollow support body are coaxially disposed, outer diameter is equal to the hollow bearing The base diameter of body.

Preferably, the convex block is quadrangular, height is equal to the height of annular flange, and the convex block is from annular flange Inner surface radially extended along annular flange.

Preferably, the channel is the wall thickness through hollow support body and extends along the bus of the hollow support body Slot or the groove that extends in hollow support body wall along the bus of the hollow support body, the groove is towards hollow bearing External surface direction is opened wide；

The channel is located between two adjacent projections, and extends along the hollow support body generatrix direction.

Preferably, the channel is the wall thickness through hollow support body and extends along the bus of the hollow support body Slot or the groove that extends in hollow support body wall along the bus of the hollow support body, the groove is towards hollow bearing External surface direction is opened wide；

The channel is located between two adjacent projections, and extends along the hollow support body generatrix direction.

Preferably, the fixed part includes being fixedly connected with part and transition connection portion point, the transition connection portion point It is fixedly connected with the part that is fixedly connected, the hollow support body is fixedly connected with the transition connection portion point, the transition The inner surface of coupling part is connect with the smooth interior surfaces transition of the hollow support body, and the part that is fixedly connected is equipped with logical Hole, it is described to be fixedly connected with the slender bodies that part is rectangular cross section or circular cross section.

Preferably, the upper bottom diameter of the hollow support body is 16.5mm, bottom diameter is 6.5mm, a height of 4.3mm；

The internal diameter of the annular flange is 5.5mm；

The convex block is 0.75mm along the length that annular flange radially extends from the inner surface of annular flange；

The channel is 3mm along the length of the hollow support body central axial direction.

Eyeglass clamping device according to the present invention for camera module assembling, can be pressed against assembled camera module In camera lens, and can cooperate with micron-sized probe, adjustment, the final realization eyeglass position such as eyeglass implementation pushed away, press The adjustment set, simultaneously because hollow support body is field angle that is hollow open, therefore will not sheltering from camera lens.

Detailed description of the invention

It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the invention Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 be according to the present invention it is a kind of for camera module assembling eyeglass clamping device main view；

Fig. 2 be according to the present invention it is a kind of for camera module assembling eyeglass clamping device stereo rearview；

Fig. 3 is partial enlarged view at A in Fig. 2；

Fig. 4 be according to the present invention it is a kind of for camera module assembling eyeglass clamping device three-dimensional cutaway view；

Fig. 5 be according to the present invention it is a kind of for camera module assembling eyeglass clamping device adjustment camera module eyeglass Cross-sectional view.

Specific embodiment

The description of this illustrated embodiment should be combined with corresponding attached drawing, and attached drawing should be used as the one of complete specification Part.In the accompanying drawings, the shape of embodiment or thickness can expand, and to simplify or facilitate mark.Furthermore it is respectively tied in attached drawing The part of structure will be to describe to be illustrated respectively, it is notable that the member for being not shown in the figure or not being illustrated by text Part is the form known to a person of ordinary skill in the art in technical field.

The description of embodiments herein, any reference in relation to direction and orientation, is merely for convenience of describing, and cannot manage Solution is any restrictions to the scope of the present invention.Relational language, as " lower ", " higher ", " horizontal ", " vertical ", " On ", " under ", "upper", "lower", " top " and " | bottom " and its derivative (such as " horizontally ", " down ", " upward " Etc.) should all be interpreted that discussed orientation is shown described in explanation or in attached drawing.These relational languages are just to side Just it describes, and is not considered as the explanation to instrument and equipment or the concrete operations in particular orientation.In addition, spy of the invention Point and advantage are illustrated by referring to preferred embodiment.It is therefore preferable that embodiment illustrates possible infinite feature Combination, these features may be individually present or combine presence, and the present invention is not defined in preferred embodiment particularly. The scope of the present invention is defined by the claims.

Fig. 1 is main view according to the present invention, and this eyeglass clamping device for camera module assembling is mainly used for The process for assembling camera module, when carrying out alignment adjustment to an eyeglass in camera module group lens, gripping need to be adjusted Whole camera module, and pass through the eyeglass in the cooperation adjustment camera module with probe 301.

Clamping device of the present invention includes the hollow support body 201 of fixed part 1 and both ends open.Fixed part 1 For the eyeglass clamping device for being originally used for camera module assembling to be fixedly supported upon the equipment for being used to assemble camera module, so as to Execute subsequent assembly working.Hollow support body 201 is then for being arranged convex block 203, convex block 203 and camera module phase to be adjusted Contact executes the subsequent adjustment to the eyeglass so that the other component of the equipment with assembling camera module cooperates.For example, right The adjustment of lens position, posture.The effect of fixed part 1 is that the eyeglass clamping device of camera module assembling on the one hand will be used for Itself be fixed to assembling camera module equipment on, another aspect fixed bearing it is according to the present invention for camera module assemble Eyeglass clamping device hollow support body 201.

Fig. 2 is the stereo rearview of the invention schematically shown.Fig. 3 schematically shows that the portion A according to the present invention is put Big figure.As shown in Fig. 2, fixed part 1 include one it is elongated be fixedly connected with part 101, a transition connection portion point 102 and set It is placed in the mounting hole 103 for being fixedly connected with 101 rear end of part.201 one end of hollow support body is fixed to each other with transition connection portion point 102 Connection, the other end are then equipped with annular flange 202, convex block 203 and channel 204.

As shown in Fig. 2, being fixedly connected with the cuboid elongate rod that part 101 is rectangular section.As shown in the figure, it is fixedly connected Part 101 is fixedly connected with transition connection portion point 102, is fixedly connected with part 101 along its length perpendicular to pair of its lower surface Median plane is claimed to be overlapped with the symmetrical centre face perpendicular to 102 lower surfaces of transition connection portion point.

Being fixedly connected with part 101, with fillet 1011, in fixed connection place, transition is connect with transition connection portion point 102.Fillet 1011 transition connection helps to reduce the stress concentration for being fixedly connected with 102 fixed connection places of part 101 and transition connection portion point, increases The strong bonding strength for being fixedly connected with part 101 and transition connection portion point 102, makes the eyeglass folder entirely for camera module assembling The reliability for holding tool increases.The section for being fixedly connected with part 101 may be arranged as other forms, such as round, semicircle, Half elliptic etc..Being fixedly connected with part 101 its rear end for fixing and may also be used for and transition connection portion in Z-shaped Point 102 front ends interconnected not in a plane, such as mutually stepped setting.The advantages of this shape is can to make Eyeglass clamping device for camera module assembling adapts to different size or magnitude of camera modules, can also be more suitable in structure Together in the equipment of assembling camera module.In short, the straight part 101 that is fixedly connected is only according to the present invention for imaging mould A kind of preferred embodiment of the eyeglass clamping device of group assembling.

Fig. 4 schematically shows three-dimensional cutaway view according to the present invention.As shown in figure 4,102 outer surfaces of transition connection portion point 1024 be cylindrical surface.The inner surface 1023 of transition connection portion point 102 is the circular conical surface being recessed inwardly.Transition connection portion point 102 upper and lower surface is all plane, and the upper surface of transition connection portion point 102 is concordant with the upper surface of supporting part 101.Transition connects Socket part point 102 can also not have upper surface.I.e. the outer edge of its upper surface mutually draws close convergence, forms a flange.

As shown in Fig. 2, the transition connection portion point 102 is cylindric cylinder.Transition connection portion points 102 be fixedly connected with portion Divide 101 to be fixedly connected, forms an entirety.The shape of transition connection portion point 102 can also be other shapes, such as hollow foreign side Inner circular etc..Preferably, the thickness in the transition connection portion point 102 vertical direction can with to be fixedly connected with part 101 rectangular The height of body elongate rod is equal.

As shown in Fig. 2, being fixedly connected with part 101 equipped with mounting hole 103.As shown in the figure, mounting hole 103 may be configured as It is multiple.The equipment that mounting hole 103 is used to the eyeglass clamping device for being used for camera module assembling being fixed on assembling camera module. Mounting hole 103 is through-hole, through the upper and lower surface for being fixedly connected with 101 short transverse of part.In the present embodiment, mounting hole 103 be cylindrical hole, and mounting hole 103 is linearly arranged along the symmetrical centre for being fixedly connected with 101 length direction of part.Mounting hole 103, which may be alternatively provided as edge, is fixedly connected with the arrangement of partial width dimension linear.Mounting hole 103 can be configured as other shapes, such as Stepped hole, counterbore, slotted hole, round rectangle hole etc..

As shown in Fig. 2, hollow support body 201 is fixedly connected with the transition connection portion of fixed part 1 point 102.Hollow bearing 201 both ends of body are unlimited, and 201 open at both ends radius of hollow support body is different.The small one end of the open radius of hollow support body 201 In hollow support body bottom end.The big one end of the open radius of hollow support body 201 is top and is connected with transition connection portion point 102 It connects.

As shown in figure 4, the inner surface 2011 of hollow support body 201 and the inner surface 1023 of transition connection portion point 102 are smooth Transition is connected with each other, and constitutes a public face 2013.Public face 2013 terminates at the flange on 102 upper surfaces of transition connection portion point 1022.Hollow support body 201 is from minor radius one end to large radius one end at radial expansion.The radial exhibition of hollow support body 201 Composition bullet is opened, the field angle of camera lens is adapted in the cone angle of this bullet and camera module to be assembled, i.e., must not be small In the field angle of camera lens, the detection in an assembling process to eyeglass in entire visual field scope must not be interfered.As shown in the figure, in Empty supporting mass 201 is hollow frusta-conical, hollow frustroconical pyramid or hollow frustroconical hemisphere etc..

201 bottom end of hollow support body is equipped with along its own axis to the annular flange extended except hollow support body 201 202.Referring to fig. 2, annular flange 202 is fixedly connected with hollow support body 201, and the inside of annular flange 202 is equipped with convex block 203, Convex block 203 is fixedly connected with annular flange 202.Plurality of passages 204 are additionally provided on hollow support body 201.

Annular flange 202 and hollow support body 201 are coaxially disposed, and are fixedly connected with the hollow support body 201.It is preferred that Ground, 202 outer diameter of annular flange is equal with the base diameter of hollow support body 201,202 internal diameter of annular flange and the hollow bearing 201 bottom end opening diameter of body is equal.The internal diameter of the annular flange 202 need to be greater than the eyeglass in adjusted camera module group lens Diameter.

As shown in Fig. 2, convex block 203 is set on the inner surface 2021 of annular flange 202.The identical convex block of two structures Two convex blocks 203 alternate setting parallel to each other in 203 one group, any one group of compositions.Assuming that the two of alternate setting parallel to each other The interposition of a convex block 203 is equipped with a pair of of title median plane, then two convex blocks 203 are symmetrical about central symmetry plane.Any The setting close to each other of convex block 203 in one group, then two faces close to each other can be such as micro- to the part of subsequent adjustment eyeglass The head of the probe of meter level is play a part of to be oriented to and be limited.

As shown in Fig. 2, being arranged four groups on the inner surface 2021 of annular flange 202, eight convex blocks 203 are amounted to.Convex block 203 with The inner surface 2021 of flange 202 is fixedly connected, and the inner surface of the central symmetry plane of two convex blocks 203 and locating flange 202 2021 section is perpendicular.Referring to fig. 2, it is provided with four groups of convex blocks 203 on the inner surface 2021 of annular flange 202, any two groups Angle between the symmetrical centre face of convex block 203 is 90 °, i.e. the interior table that four groups of convex blocks 203 are angularly evenly distributed on flange 202 On face 2021.Wherein the angular bisector of angle is located at the length direction of fixed part 1 between two groups of convex blocks 203 close to each other Perpendicular to any central symmetry plane on the symmetrical centre face of lower surface, i.e., close to two groups of convex blocks 203 for being fixedly connected with part 101 Angle with the symmetrical centre face perpendicular to upper surface of the length direction of fixed part 1 is 45 °.

As shown in figure 3, convex block 203 two are parallel to each other and alternate configuration for convex block 203 in one group, every group.Such as institute in figure Show, convex block 203 is rectangle quadrangular.Convex block 203 is set as rectangular quadrangular, simple shape, and save the cost is easy to process.When So, convex block 203 may be alternatively provided as right-angled trapezium prism.In any one group, the trapezoidal long bottom of two right-angled trapezium prisms While being oppositely arranged, since its top is triangle, the contact area with camera module is reduced when contacting camera module, is reduced Influence to lens imaging.Two right-angled trapezium prisms may be alternatively provided as that trapezoidal short bottom edge is opposite to be set in any one group It sets, then the trapezoidal hypotenuse of right-angled trapezium prism is oppositely arranged, and open wide two convex blocks 203 in one group outward in opening, Effectively increase the working space of the equipment of the adjustment eyeglass of equipment.

As shown in Fig. 2, the bottom surface 2031 of convex block 203 and the bottom surface 2022 of annular flange 202 are fixedly linked.Convex block 203 Bottom surface 2031 and the bottom surface 2022 of annular flange 202 are in one plane, i.e., mutually coplanar.203 height of convex block are as follows: from annular The bottom surface 2022 of flange 202 along it is hollow hold 201 axis direction of body extend to the hollow annular seamed edge 2023 for holding body 201 away from From.Convex block 203 extends towards 202 center of annular flange, and end is free end, inner surface of the convex block 203 from annular flange 202 2021 radially extend to 202 center of annular flange.

As shown in Fig. 2, being provided with linear passageway 204 on 201 outer surface 2012 of hollow support body.Channel 204 is a plurality of logical Road and 204 shape of each channel and length are all the same.As shown in the figure, channel 204 is through the hollow outer surface 2012 for holding body 201 in Sky holds the extension of 201 inner surface 2011 of body, and outer surface 2012 and the hollow inner surface for holding body 201 through hollow support body 201 2011.Channel 204 is the through slot extended along the bus of 201 outer surface 2012 of hollow support body.Channel 204 may be alternatively provided as Through the hollow appearance for holding body 201 towards the hollow groove for holding the extension of 201 inner surface 2011 of body, groove floor, which does not pass through, hollow holds body 201 inner surfaces 2011, groove are opened wide towards 201 outer surface of hollow support body, 2012 direction.

As shown in Fig. 2, channel 204 is correspondingly arranged with each group convex block 203.As shown in the figure, the width etc. in channel 204 In the distance between two convex blocks 203.Channel 204 extends along 201 outer surface of hollow support body, 2012 generatrix direction.

As shown in figure 4, the hollow body 201 that holds is connected with transition connection portion included by fixed part 1 point 102.In such as figure Shown, 201 outer surface 2012 of hollow support body extends to 102 lower surfaces of transition connection portion point and divides 102 with transition connection portion Lower surface intersects at the seamed edge 1021 of 102 lower surfaces of transition connection portion point and is fixedly connected.The inner surface of hollow support body 201 2011 extend to transition connection portion point 102.The inner surface 2011 of hollow support body 201 extends to the interior of transition coupling part 102 Surface 1023, and seamlessly transit and be connected with each other with the inner surface 1023 of transition connection portion point 102, collectively form a public face 2013.Public face 2013 terminates at the flange 1022 of 102 upper surfaces of transition connection portion point and is fixedly connected.It is described hollow to hold body 201 symmetrical center line coincides with 102 center lines of transition connection portion point.

Fig. 5 schematically shows cross-sectional view according to the present invention.As shown in figure 5, probe 301 is correspondingly set with channel 204 It sets.As shown in the figure, each probe 301 is passed through from the outside of hollow support body 201 corresponding on hollow support body 201 simultaneously Channel 204 enters the inside of hollow support body 201, and extends to the eyeglass in 4 camera lens of camera module under convex block 203 401 position.Accurate position or pose adjustment are carried out to eyeglass 401 under the action of each probe 301.It is not influenced meeting Install 4 field angle of camera module and it is easy to operate under the premise of, this for camera module assembling eyeglass clamping device work department Divide and needs using reasonable size.Preferably, 102 lower surface junctions of 201 top of hollow support body and transition connection portion point 1021 diameter is 16.5mm, and the diameter for extending to 102 upper surface junctions 1022 of transition connection portion point is 20.12mm.In Empty 201 bottom end of supporting mass is connected with annular flange 202, and bottom diameter is identical as 202 outer diameter of annular flange and is 6.5mm. Hollow support body 201 is 4.3mm at a distance from 102 junctions to bottom end of transition connection portion point from top.Annular flange 202 is in Empty supporting mass 201 has common opening, aperture 5.5mm.The height of annular flange 202 is 0.7mm.Convex block 203 is from annular The inner surface 2021 of flange 202 radially extends to 202 center of annular flange, radical length 0.75mm.In this embodiment party In formula, channel 204 is 3mm along the length of 201 central axial direction of hollow support body.

Above-mentioned setting according to the present invention utilizes the reality of the eyeglass clamping device for camera module assembling of the invention The course of work is as follows:

A. the camera module 4 that need to be adjusted is put into adjustment tooling to light, camera module 4 is carried out using debugging jig Preliminary position adjustment makes camera module 4 be located at adjustment tooling center and holding level, then fixes 4 position of camera module；

B. the equipment for assembling camera module 4 being installed on by through-hole 103 for the eyeglass clamping device of camera module assembling Mechanical arm on, this clamping device is transported to right above camera module 4 by mechanical arm, finely tune the position of this clamping device, is made The center of annular flange 202 on empty supporting mass 201 and the central coaxial of the eyeglass 401 in 4 camera lens of camera module, it is then mechanical Armband move this clamping device move down slowly 203 lower surface 2031 of convex block close to camera module 4, in annular flange 202 with Camera module 4 abuts, and is to push down camera module 4 with this clamping device.When this clamping device pushes down camera module 4, this folder It holds tool just to clamp camera module 4 together with adjustment tooling, camera module 4 is located on adjustment tooling, this clamping work Under tool；

C. each probe 301 in the equipment of camera module 4 is assembled simultaneously from the outside of hollow support body 201 across hollow Corresponding channel 204 enters the inside of hollow support body 201 on supporting mass 201, and extends to the camera shooting under convex block 203 The position of eyeglass 401 in 4 camera lens of mould group.It in this way can be to the eyeglass in 4 camera lens of camera module by control probe 301 401 posture position is adjusted, until the posture position of the eyeglass 401 in 4 camera lens of camera module meets the requirements.

Above content is only enumerating for a specific embodiment of the invention, for the equipment and knot of wherein not detailed description Structure, it should be understood that the existing common apparatus in this field and universal method is taken to be practiced.

The foregoing is merely an embodiment of the invention, are not intended to restrict the invention, for this field For technical staff, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any Modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of eyeglass clamping device for camera module assembling, the hollow support body including fixed part (1), both ends open (201) it is mutually permanently connected with probe (301), the fixed part (1) with the hollow support body (201), which is characterized in that Hollow support body (201) bottom is equipped with annular flange (202), and the inside of the annular flange (202) is equipped with for pushing down The convex block (203) of camera module is additionally provided with channel (204) on hollow support body (201), and the probe (301) passes through channel (204) position adjustment is carried out to the eyeglass in the camera module below convex block (203).

2. the eyeglass clamping device for camera module assembling as described in claim 1, which is characterized in that hollow support body It (201) is in hollow-cone body, the cone angle of bullet is greater than the field angle of camera lens in camera module to be assembled, in camera module Hollow support body described in assembling process (201) will not shelter from the eyeglass in camera lens.

3. the eyeglass clamping device for camera module assembling as claimed in claim 1 or 2, which is characterized in that the convex block (203) two are one group, alternate setting, be at least arranged three groups it is angularly uniformly distributed described convex in the annular flange (202) Block (203), the angle of the angle between convex block (203) described in the longitudinally asymmetric center line and two adjacent groups of the fixed part (1) Bisector alignment.

4. the eyeglass clamping device for camera module assembling as claimed in claim 1 or 2, which is characterized in that the probe (301) and the channel (204) are set as four groups with corresponding to each other.

5. the eyeglass clamping device for camera module assembling as described in claim 1, which is characterized in that the annular flange (202) it is coaxially disposed with the hollow support body (201), outer diameter is equal to the base diameter of the hollow support body (201).

6. the eyeglass clamping device as claimed in claim 1 or 5 for camera module assembling, which is characterized in that the convex block It (203) is quadrangular, height is equal to the height of annular flange (202), and the convex block (203) is from the interior of annular flange (202) Surface (2021) is radially extended along annular flange (202).

7. the eyeglass clamping device for camera module assembling as described in claim 1, which is characterized in that the channel (204) for through the wall thickness of hollow support body (201) and along the slot of the bus of the hollow support body (201) extension or in The groove extended in empty supporting mass (201) wall along the bus of the hollow support body (201), the groove is towards hollow bearing Body (201) outer surface direction is opened wide；

The channel (204) is located between two adjacent projections (203), and prolongs along the hollow support body (201) generatrix direction It stretches.

8. the eyeglass clamping device as claimed in claim 1 or 7 for camera module assembling, which is characterized in that the fixation Partially (1) includes being fixedly connected with part (101) and transition connection portion point (102), the transition connection portion divide (102) with it is described solid Determine coupling part (101) to be fixedly connected, the hollow support body (201) is fixedly connected with the transition connection portion point (102), institute The inner surface for stating transition connection portion point (102) is connect with the smooth interior surfaces transition of the hollow support body (201), the fixation Coupling part (101) is equipped with through-hole (103), and the part (101) that is fixedly connected is rectangular cross section or circular cross section Slender bodies.

9. the eyeglass clamping device for camera module assembling as claimed in claim 8, which is characterized in that the hollow bearing The upper bottom diameter of body (201) is 16.5mm, and bottom diameter is 6.5mm, a height of 4.3mm；

The internal diameter of the annular flange (202) is 5.5mm；

The length that the convex block (203) radially extends from the inner surface (2021) of annular flange (202) along annular flange (202) For 0.75mm；

The channel (204) is 3mm along the length of the hollow support body (201) central axial direction.