CN206339760U - Camera lens module - Google Patents

Abstract

The utility model provides a kind of camera lens module.A kind of camera lens module includes barrel and lens set, the lens set includes the first eyeglass and the second eyeglass, first eyeglass includes the first imaging area and the first supporting region, first supporting region includes first surface and second surface, the first surface has convexed to form protuberance to away from the second surface direction, the protuberance includes the first arc surface being connected with the first surface, second eyeglass includes the second imaging area and the second supporting region, second supporting region includes upper surface and lower surface, the upper table is formed with platform part towards lower surface depression, the platform part includes the first inclined-plane being connected with the upper surface, the protuberance is at least partially inserted into the platform part, first arc surface is abutted with first inclined-plane.Compared with correlation technique, the camera lens module that the utility model is provided coordinates instability problem by a kind of new eyeglass fit structure to improve eyeglass.

Description

Camera lens module

【Technical field】

The utility model is related to a kind of camera lens module.

【Background technology】

In recent years, continuing to develop with science and technology, electronic equipment is constantly towards intelligent development, except digital camera Outside, portable electric appts are also provided with camera lens module such as panel computer, mobile phone.

The camera lens module of correlation technique includes barrel and the lens set being arranged in the barrel, the lens set bag Include multiple eyeglasses.Stacked or the conjunction of full circle inclined-plane bank however, the fit system between the eyeglass is generally eyeglass, this cooperation is not Only mode is single, and coordinates unstable, and tilt phenomenon generation is tended to have during breasting, the imaging performance of the camera lens module is influenceed, Mould processing mode is also very single simultaneously.

Therefore, it is necessary to provide a kind of new camera lens module to solve the above problems in fact.

【Utility model content】

The purpose of this utility model is to provide a kind of new eyeglass fit structure to coordinate instability problem to improve eyeglass Camera lens module.

In order to solve the above-mentioned technical problem, the technical solution of the utility model is as follows：A kind of camera lens module includes barrel And the lens set being connected in the barrel and with the barrel, the lens set include the first eyeglass and with it is described First eyeglass stacks the second eyeglass for being respectively positioned on same optical axis set, and first eyeglass includes the first imaging area and around institute State the first supporting region of the first imaging area, first supporting region include towards second eyeglass first surface and with institute The second surface that first surface is oppositely arranged is stated, the first surface is prominent to having been convexed to form away from the second surface direction Portion, the protuberance includes the first arc surface of the projection being connected with the first surface, the first arc surface Divergence optical axis Direction is set；Second eyeglass includes the second imaging area and the second supporting region around second imaging area, described second Supporting region is included towards the upper surface of first eyeglass and the lower surface being oppositely arranged with the upper surface, the upper surface Platform part is formed with to lower surface depression, the platform part includes the first inclined-plane being connected with the upper surface, described prominent Go out portion to be at least partially inserted into the platform part, first arc surface is abutted with first inclined-plane.

It is preferred that, first arc surface is annularly distributed centered on the optical axis of first eyeglass.

It is preferred that, the first surface and the upper surface are separated by a distance.

It is preferred that, the first surface is abutted with the upper surface.

It is preferred that, the protuberance also includes the first plane being connected with the first arc surface opposite side, the platform Portion also includes the first loading end being connected with first inclined-plane opposite side.

It is preferred that, first plane and first loading end are separated by a distance.

It is preferred that, the barrel includes offering the first barrel of light hole, bends extension from first barrel Second barrel and enclosed by first barrel and second barrel and set the receiving space formed, the of first supporting region Two surfaces are abutted with the surface of the first barrel towards the receiving space.

It is preferred that, second barrel towards the surface of the receiving space include be connected with first barrel first Bearing surface, from first bearing surface along away from the extended surface of straight line bends extension where the light hole and from the extension Second bearing surface of face bending extension, first supporting region also includes the side for connecting the first surface and the second surface Face, the side is abutted with first bearing surface.

It is preferred that, second supporting region also includes the joint face for connecting the upper surface and the lower surface, the company Junction is abutted with second bearing surface.

Compared with correlation technique, the camera lens module that the utility model is provided has the advantages that：The utility model is carried A kind of new eyeglass fit structure is gone out, the first supporting region of the first eyeglass is provided with protuberance, the second supporting region of the second eyeglass Provided with platform part, the first inclined-plane of the first arc surface of protuberance and platform part abuts the mode coordinated and causes the first eyeglass and the Fitment stability is good between two eyeglasses, while improving the positioning precision between the first eyeglass and the second eyeglass, fitness can root It is controlled according to design needs.

【Brief description of the drawings】

The structural representation for the camera lens module first embodiment that Fig. 1 provides for the utility model；

Fig. 2 is the enlarged drawing of part A in camera lens module shown in Fig. 1；

Fig. 3 is the structural representation of barrel in camera lens module shown in Fig. 1；

Fig. 4 is the enlarged drawing of part B in barrel shown in Fig. 3；

Fig. 5 is the structural representation of the first eyeglass in camera lens module shown in Fig. 1；

Fig. 6 is the structural representation of the second eyeglass in camera lens module shown in Fig. 1；

The structural representation for the camera lens module second embodiment that Fig. 7 provides for the utility model；

Fig. 8 is the enlarged drawing of C portion in camera lens module shown in Fig. 7；

The structural representation for the camera lens module 3rd embodiment that Fig. 9 provides for the utility model；

Figure 10 is the enlarged drawing of D parts in camera lens module shown in Fig. 9.

【Embodiment】

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.

First embodiment：

As shown in figure 1, the camera lens module 1 include barrel 11, in the barrel 11 and with the barrel 11 connected lens sets 13 and shading piece 15.

As shown in figure 3, the barrel 11 include extending in horizontal direction the first barrel 111, from first barrel The second barrel 113 and enclosed by first barrel 111 and second barrel 113 and set the collecting formed that 111 bendings extend Space 115, the center of first barrel 111 offers light hole 1111, and the center place for defining the light hole 1111 is straight Line is optical axis 117.

As shown in figure 4, second barrel 113 includes and first barrel towards the surface of the receiving space 115 111 the first connected bearing surfaces 1131, the direction bending from first bearing surface 1131 along the remote optical axis 117 extend Extended surface 1133 and the second bearing surface 1135 that extension is bent from the extended surface 1133.

The lens set 13 includes the first eyeglass 131 and the heap of the first eyeglass 131 close to first barrel 111 The second eyeglass 132, the 3rd eyeglass 133, the 4th eyeglass 134, the 5th eyeglass 135 and the 6th eyeglass 136 folded and be coaxially disposed, In the present embodiment, the lens set 13 includes six eyeglasses for being respectively positioned on the same optical axis 117, in other embodiment In, two eyeglasses also can be only set as needed or the eyeglass of other quantity is set.

As shown in figure 5, first eyeglass 131 is included positioned at first imaging area 1311 at center and around described the first one-tenth The first supporting region 1312 set as area 1311.

First supporting region 1312 includes first surface 1312A and first table towards second eyeglass 132 Second surface 1312B and connect the first surface 1312A's and second surface 1312B that face 1312A is oppositely arranged Side 1312C.

The first surface 1312A is abutted with second eyeglass 132, and the first surface 1312A and the optical axis 117 is vertical；The second surface 1312B is abutted with the surface of first barrel 111 towards the receiving space 115, and institute Second surface 1312B is stated with surface of first imaging area 1311 away from second eyeglass 132 to be connected；The side 1312C is abutted with the first bearing surface 1131 of second barrel 113.

The first surface 1312A has convexed to form protuberance 1312D to away from the second surface 1312B directions.Institute Stating protuberance 1312D has and the first arc surface 13121 of the first surface 1312A projections being connected and the described first circle The first connected plane 13122 of the opposite side of cambered surface 13121 and the first optics that extension is bent from first plane 13122 Face 13123.Wherein, the direction of optical axis 117 described in the Divergence of the first arc surface 13121 is set, first plane 13122 and institute State optical axis 117 vertical, first optical surface 13123 is arc surface, first optical surface 13123 and first imaging area 1311 are connected close to the surface of second eyeglass 132.

As shown in fig. 6, second eyeglass 132 is included positioned at second imaging area 1321 at center and around described the second one-tenth The second supporting region 1322 set as area 1321.

Second supporting region 1322 includes upper surface 1322A and the upper surface towards first eyeglass 131 Lower surface 1322B and the connection upper surface 1322A and lower surface 1322B joint face that 1322A is oppositely arranged 1322C。

The upper surface 1322A is abutted with first eyeglass 132, specifically, the upper surface 1322A and described first The first surface 1312A of supporting region 1312 is abutted, and the upper surface 1322A is vertical with the optical axis 117；The following table Face 1322B is abutted with the 3rd eyeglass 133, and the lower surface 1322B and second imaging area 1321 are away from described the The surface of one eyeglass 131 is connected；The joint face 1322C is abutted with the second bearing surface 1133 of second barrel 13.

The upper surface 1322A is formed with platform part 1322D, the platform part 1322D to lower surface 1322B depressions First be connected with the first inclined-plane 13221 being connected with the upper surface 1322A, with the opposite side of the first inclined-plane 13221 Loading end 13222 and the second optical surface 13223 that extension is bent from first loading end 13222.Wherein, described first Loading end 13222 is vertical with the optical axis 117, and second optical surface 13223 is arc surface, second optical surface 13223 It is connected with surface of second imaging area 1331 away from first eyeglass 131.

As shown in Fig. 2 the protuberance 1312D of first supporting region 1312 is at least partially inserted into second supporting region In 1322 platform part 1322D, specifically, first arc surface 13121 is abutted with first inclined-plane 13221, it is this to match somebody with somebody Close structure and make it that fitment stability is good between first eyeglass 131 and second eyeglass 132, while improving first mirror Positioning precision between piece 131 and second eyeglass 132, fitness can be controlled according to design needs.It is simultaneously described Fit structure between protuberance 1312D and the platform part 1322D can apply between any two eyeglass.

In the present embodiment, the first surface 1312A of first supporting region 1312 and second supporting region 1322 Upper surface 1322A is abutted, and the first plane 13122 of first supporting region 1312 is held with the first of second supporting region 1322 Section 13222 is separated by a distance, can be used to place shading piece, and ensure first eyeglass 131 and second mirror Airspace between piece 132 determines by the fit structure between the protuberance 1312D and the platform part 1322D, in addition, The thickness deviation of shading piece does not interfere with the airspace between first eyeglass 131 and second eyeglass 132.

The shading piece 15 is cyclic structure, is held between two neighboring eyeglass.The shading piece 15 be anti-dazzling screen and/ Or shadow shield.In the present embodiment, second eyeglass 132, the 3rd eyeglass 133, the 4th eyeglass 134 and described The shading piece 15 in 5th eyeglass 135 between two neighboring eyeglass is anti-dazzling screen 151, the 5th eyeglass 135 and described The shading piece 15 between 6th eyeglass 136 is shadow shield 153.In other embodiments, the shading piece 15 can also be The anti-dazzling screen 151 and shadow shield 153 set is folded successively.

The central shaft of the optical axis of the lens set 13, the central shaft of the shading piece 15 and the barrel 11 is located at same Bar straight line, i.e. optical axis 117, that is to say, that the structure being made up of the barrel 11, the lens set 13 and the shading piece 15 For coaxial configuration.

Second embodiment：

As shown in Figure 7 and Figure 8, each part and function of a kind of camera lens module 2 are identical with a upper embodiment, no With in the present embodiment, the first surface 2312A of first supporting region 2312 is upper with second supporting region 2322 Surface 2322A is separated by a distance, is to ensure the axiality of first eyeglass 231 and second eyeglass 232 by phase The first arc surface 23121 and the first inclined-plane 23221 mutually abutted determine, the deviation of the axiality of so described barrel 21 is just not Influence whether the axiality of the lens set 23, the first plane 23122 and the described second carrying of first supporting region 2312 First loading end 23222 in area 2322 is abutted.

3rd embodiment：

As shown in Figure 9 and Figure 10, each part and function of a kind of camera lens module 3 are identical with first embodiment, Unlike, in the present embodiment, first arc surface 33121 is annular in shape centered on the optical axis of first eyeglass 331 Distribution.Anti-dazzling screen 351 is clamped between first eyeglass 331 and second eyeglass 332, specifically, first carrying It is clamped between first plane 33122 in area 3312 and first loading end 33222 of second supporting region 3322 Anti-dazzling screen 351.

Compared with correlation technique, the camera lens module that the utility model is provided has the advantages that：This practicality is new Type proposes a kind of new eyeglass fit structure, and the first supporting region of the first eyeglass is provided with protuberance, and the second of the second eyeglass holds Carry area and be provided with platform part, the first arc surface of protuberance and the first inclined-plane of platform part abut the mode coordinated and cause the first eyeglass And second fitment stability between eyeglass it is good, while improving the positioning precision between the first eyeglass and the second eyeglass, fitness can To be controlled according to design needs.

Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in Other related technical fields, are similarly included in scope of patent protection of the present utility model.

Claims (9)

1. a kind of camera lens module, its eyeglass for including barrel and being connected in the barrel and with the barrel Group, the lens set includes the first eyeglass and stacks the second eyeglass for being respectively positioned on same optical axis set with first eyeglass, It is characterized in that：First eyeglass includes the first imaging area and the first supporting region around first imaging area, described the One supporting region is included towards the first surface of second eyeglass and the second surface being oppositely arranged with the first surface, institute State first surface and convexed to form protuberance to away from the second surface direction, the protuberance includes and the first surface First arc surface of connected projection, the first arc surface Divergence optical axis direction is set；Second eyeglass includes the second one-tenth The second supporting region as area and around second imaging area, second supporting region includes the upper table towards first eyeglass Face and the lower surface being oppositely arranged with the upper surface, the upper table are formed with platform part towards lower surface depression, institute The first inclined-plane that platform part includes being connected with the upper surface is stated, the protuberance is at least partially inserted into the platform part, institute The first arc surface is stated to abut with first inclined-plane.

2. camera lens module according to claim 1, it is characterised in that：First arc surface is with the light of first eyeglass Annularly it is distributed centered on axle.

3. camera lens module according to claim 1, it is characterised in that：The first surface is separated by necessarily with the upper surface Distance.

4. camera lens module according to claim 1, it is characterised in that：The first surface is abutted with the upper surface.

5. camera lens module according to claim 4, it is characterised in that：The protuberance also includes and first arc surface The first connected plane of opposite side, the platform part also includes the first loading end being connected with first inclined-plane opposite side.

6. camera lens module according to claim 5, it is characterised in that：First plane is separated by with first loading end Certain distance.

7. camera lens module according to claim 6, it is characterised in that：The barrel includes offering the first of light hole Barrel, bend the second barrel of extension from first barrel and by first barrel and second barrel enclosed to set and formed Receiving space, the second surface of first supporting region abuts with the surface of the first barrel towards the receiving space.

8. camera lens module according to claim 7, it is characterised in that：Table of second barrel towards the receiving space Face include be connected with first barrel the first bearing surface, from first bearing surface along away from the light hole place straight line Bend the extended surface of extension and the second bearing surface of extension is bent from the extended surface, first supporting region also includes connection The side of the first surface and the second surface, the side is abutted with first bearing surface.

9. camera lens module according to claim 8, it is characterised in that：Second supporting region also includes connecting the upper table Face and the joint face of the lower surface, the joint face are abutted with second bearing surface.