CN101377560A - Glasses lens set with embedded structure and lens module - Google Patents
Glasses lens set with embedded structure and lens module Download PDFInfo
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- CN101377560A CN101377560A CNA2007101488402A CN200710148840A CN101377560A CN 101377560 A CN101377560 A CN 101377560A CN A2007101488402 A CNA2007101488402 A CN A2007101488402A CN 200710148840 A CN200710148840 A CN 200710148840A CN 101377560 A CN101377560 A CN 101377560A
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- 239000011521 glass Substances 0.000 title 1
- 230000003287 optical effect Effects 0.000 claims abstract description 37
- 230000004308 accommodation Effects 0.000 claims description 11
- 238000004519 manufacturing process Methods 0.000 abstract description 8
- 230000000694 effects Effects 0.000 description 9
- 230000004304 visual acuity Effects 0.000 description 3
- 239000002994 raw material Substances 0.000 description 2
- 239000012467 final product Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
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Abstract
The invention relates to a lens group with a jogged structure, and a lens module. The lens group with the jogged structure comprises a first lens and a second lens. The first lens comprises a first inner end surface and a first outer end surface which are arranged back to back, and a plurality of clamping grooves. The clamping grooves form on the first inner end surface, extend toward the first outer end surface and are respectively provided with a clamping valley part. The second lens comprises a second inner end surface and a second outer end surface which are arranged back to back, and a plurality of clamping blocks. The fixture blocks form on the second inner end surface, extend to the first inner end surface and are provided with block peak parts near the first inner end surface. The clamping blocks are embedded into the clamping grooves to improve the optical performance, reduce the volume, facilitate the assembly and reduce the manufacturing cost.
Description
Technical field
The present invention relates to a kind of lens set, particularly a kind of lens set and camera lens module with embedded structure.
Background technology
Consult Fig. 1, be the assembled sectional view of known a kind of camera lens module 1, this camera lens module 1 comprises lens barrel 11 and lens set 12, and this lens barrel 11 comprises the barrel 111 around optical axis 100, and the internal face of this barrel 111 defines accommodation space 112.This lens set 12 is located in this accommodation space 112 and is comprised first eyeglass 121, and second eyeglass 122.This first eyeglass 121 comprises first outer ring surface 123, has first gap 101 between the internal face of this first outer ring surface 123 and this barrel 111.This second eyeglass 122 comprises second outer ring surface 124, has second gap 102 between the internal face of this second outer ring surface 124 and this barrel 111.
This camera lens module 1 has following shortcoming:
One, during fabrication, the size of the internal face of this barrel 111 and this first and second outer ring surface 123,124 needs quite accurate simultaneously tolerance fit, if wherein have one outside tolerance, one of them is incorrect at least will to cause this first or second gap 101,102, the center that makes this first or second eyeglass 121,122 is not on desirable optical axis 100, cause resolving power to descend, cause the shortcoming that has optical property not good.
Two, for improving optical property, this first and second gap 101,102 can equate as far as possible, and keeps very little, so when assembling, pack into the difficulty of this lens barrel 11 of this lens set 12 is higher, causes having the shortcoming of assembling difficulty.
Consult Fig. 2, be known Japanese assembled sectional view of speciallyying permit a kind of camera lens module 2 of No. 3739295 patent, this camera lens module 2 comprises lens barrel 21 and lens set 22.This lens barrel 21 comprises the barrel 211 around optical axis 200, and the internal face of this barrel 211 defines accommodation space 212.This lens set 22 is located in this accommodation space 212, and this lens set 22 comprises first eyeglass 221 and two second eyeglasses 222.Each first and second eyeglass 221,222 respectively comprises the effective portion 223 of optics, around the fixed part 224 of the effective portion 223 of this optics, and the extension 225 that extends along this optical axis 200 from these fixed part 224 peripheries.The extension 225 of this first eyeglass 221 has outer ring surface 226 and inner conical surface 227, and the extension 225 of each second eyeglass 222 respectively has outer ring surface 226, inner conical surface 227 and male cone (strobilus masculinus) 228.
The outer ring surface 226 of this first and second eyeglass 221,222 defines first gap 201 and two second gaps 202 with the internal face of this barrel 211, and this inner conical surface 227 is placed in this male cone (strobilus masculinus) 228 respectively.This camera lens module 2 only utilizes this first eyeglass 221 and the internal face of this barrel 211 to make tolerance fit, only need control this first gap 201 gets final product, the center of the effective portion 223 of this optics also can remain on this desirable optical axis 200 easily than existing lens set 12 (as shown in Figure 1), but this camera lens module 2 still has following shortcoming:
One, these extensions 225 are bulky, make overall volume bigger, are unfavorable for being applied to having the bigger shortcoming of volume on mobile phone or the frivolous carry-on camera.
Two, these extensions 225 are bulky, need the more Raw materials for lenses of cost to make, and cause the shortcoming that has manufacturing cost higher.
Three, be the face contact between these inside and outside conical surfaces 227,228, if chimeric place is too tight, can cause the effective portion 223 of these optics to produce stress, very cause and cause distortion, influence the resolution energy, the optical property of this camera lens module 2 still has the space of lifting.
Four, be close to as if the end face of this first and second eyeglass 221,222, and still too loose between this inside and outside conical surface 227,228, then the center of the effective portion 223 of these optics can not guarantee that the position causes the shortcoming that has optical property not good on this optical axis 200 simultaneously.
Summary of the invention
Therefore, the technical problem to be solved in the present invention is, at the above-mentioned shortcoming of prior art, provide a kind of can improve optical property, assembling easily, volume is less and the lens set with embedded structure and the camera lens module of low cost of manufacture.
The technical solution adopted for the present invention to solve the technical problems is, a kind of lens set with embedded structure is provided, and comprises first eyeglass and second eyeglass.This first eyeglass comprises first inner face and first outer face of opposing setting, and a plurality of draw-in grooves.This first inner face has the optics active zone, reaches the fixed area around this optics active zone.Being centered close on the optical axis of this optics active zone, these draw-in grooves are along the circumferential direction to be formed at this fixed area, and extend towards this outer face, and respectively have Ka Gubu.This second eyeglass comprises second inner face and second outer face of opposing setting, and a plurality of fixture blocks.This first and second inner face faces with each other, and this second inner face has the optics active zone, reaches the fixed area around this optics active zone.Being centered close on this optical axis of this optics active zone, these fixture blocks are to be formed at this fixed area along this circumferencial direction, and extend towards this first inner face, and have the card peak portion of contiguous this first inner face.These fixture blocks embed these draw-in grooves respectively, and define the slit between this card peak portion and this card paddy portion.
The present invention also provides a kind of camera lens module with embedded structure, comprises above-mentioned lens set, and lens barrel.This lens barrel comprises the barrel around this optical axis, and the internal face of this barrel defines accommodation space.This lens set is located in this accommodation space, and this first eyeglass also comprises first outer ring surface that connects this first inside and outside end face, has first gap between the internal face of this first outer ring surface and this barrel.This second eyeglass also comprises second outer ring surface that connects this second inside and outside end face, has second gap between the internal face of this second outer ring surface and this barrel.
Implement lens set and camera lens module that the present invention has embedded structure, effect is that these fixture blocks embed these draw-in grooves respectively, and has promoted optical property, reduced volume and made the easy and reduction manufacturing cost of assembling.
Description of drawings
The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:
Fig. 1 is an assembled sectional view, and known a kind of camera lens module is described;
Fig. 2 is an assembled sectional view, and known another kind of camera lens module is described;
Fig. 3 is an assembled sectional view, illustrates that the present invention has first preferred embodiment of the camera lens module of embedded structure;
Fig. 4 is the rear view of this first preferred embodiment, and first eyeglass is described;
Fig. 5 is the front view of this first preferred embodiment, and second eyeglass is described;
Fig. 6 is an assembled sectional view, illustrates that the present invention has second preferred embodiment of the camera lens module of embedded structure;
Fig. 7 is the rear view of this second preferred embodiment, and first eyeglass is described; And
Fig. 8 is the front view of this second preferred embodiment, and second eyeglass is described.
The drawing reference numeral explanation:
4 lens barrels, 41 barrels
411 accommodation spaces, 412 first rank portions
413 second rank portions, 5 lens set
51 first eyeglasses, 511 first inner faces
512 first outer faces, 513 first outer ring surfaces
514 draw-in grooves, 515 optics active zones
516 fixed areas, 517 card paddy portions
Card sidepiece 518 ' wild card sidepiece in 518
519 annular grooves, 52 second eyeglasses
521 second inner faces, 522 second outer faces
523 second outer ring surfaces, 524 fixture blocks
525 optics active zones, 526 fixed areas
Contact part in the 527 card peak portions 528
528 ' outer contact part, 529 annular grooves
700 optical axises, 701 first gaps
703 slits, 702 second gaps
Embodiment
About aforementioned and other technology contents, characteristics and effect of the present invention, in the detailed description of two preferred embodiments of following conjunction with figs., can clearly present.
Before the present invention is described in detail, be noted that in the following description content similarly assembly is to represent with identical numbering.
Consult Fig. 3, Fig. 4, Fig. 5, be respectively assembled sectional view, rear view and the front view of first preferred embodiment that the present invention has the camera lens module of embedded structure, this camera lens module with embedded structure comprises lens barrel 4, lens set 5 and annular anti-dazzling screen 6.
This lens barrel 4 comprises the barrel 41 around optical axis 700, and the internal face of this barrel 41 defines accommodation space 411, and this internal face also forms the second rank portion 413 that the first rank portion 412 reaches greater than this first rank portion 412.
This lens set 5 is located in this accommodation space 411, and comprises first eyeglass 51 and second eyeglass 52.
This first eyeglass 51 is positioned at this first rank portion 412, and first inner face 511 that comprises opposing setting and first outer face 512, is connected first outer ring surface 513 of this first inside and outside end face 511,512 and four clamp bar slots 514.
This first inner face 511 has optics active zone 515, reaches the fixed area 516 around this optics active zone 515.Being centered close on this optical axis 700 of this optics active zone 515 has first gap 701 between this first outer ring surface 513 and this first rank portion 412.
These draw-in grooves 514 are along the circumferential direction to be formed at this fixed area 516, and towards these first outer face, 512 extensions, and space, these draw-in grooves 514 respectively have the card paddy portion 517 of contiguous this first outer face 512, reach the interior card sidepiece 518 and the wild card sidepiece 518 ' that are respectively adjacent to diametrically with away from this optical axis 700, it is vertical with this optical axis 700 plane that each card paddy portion 517 is, and connecting this inside and outside card sidepiece 518,518 ', this inside and outside card sidepiece 518,518 ' tilts to extend this card paddy portion 517 two ends away from each other and respectively.
This second eyeglass 52 is positioned at this second rank portion 413, and second inner face 521 that comprises opposing setting and second outer face 522, is connected second outer ring surface 523 of this second inside and outside end face 521,522 and four fixture blocks 524.This first and second inner face 511,521 faces with each other, and this second inner face 521 has optics active zone 525, reaches the fixed area 526 around this optics active zone 525.Being centered close on this optical axis 700 of this optics active zone 525, this fixed area 526 forms the annular groove 529 that is positioned at these fixture block 524 inboards and is installed with for this anti-dazzling screen 6, have second gap 702 that is not equal to this first gap 701 between this second outer ring surface 523 and this second rank portion 413, this first gap 701 is less than this second gap 702 in the present embodiment.These fixture blocks 524 are to be formed at this fixed area 526 along this circumferencial direction and space, and extend towards this first inner face 511.Each fixture block 524 has the card peak portion 527 of contiguous this first inner face 511, and props up this inside and outside card sidepiece 518,518 ' interior contact part 528 and outer contact part 528 ' respectively.This card peak portion 527 connects this inside and outside contact parts 528,528 ', this inside and outside contact part 528,528 ' with this card peak portion 527 common form hemispherical, this inside and outside contact part 528,528 ' with this inside and outside card sidepiece 518,518 ' between be to contact.
These fixture blocks 524 embed these draw-in grooves 514 respectively, and define slit 703 between this card peak portion 527 and this card paddy portion 517.
The effect that the present invention has the camera lens module of embedded structure is:
One, because these fixture blocks 524 embeds these draw-in grooves 514 respectively, this first, second eyeglass 51,52 is kept the heart, so during fabrication, needn't control the correctness in this first or second gap 701,702 simultaneously, the center of these optics active zones 525 also can be on desirable optical axis 700, make resolving power rise, improved optical property.
Two, this second gap 702 can be set greater than this first gap 701, so in when assembling, this second eyeglass 702 this lens barrel 4 that is easier to pack into reaches assembling and is easy to effect.
Three, this first and second eyeglass 51,52 there is no known huge extension 225 (as shown in Figure 2), and overall volume is dwindled many, reaches the effect that reduces volume.
Four, this first and second eyeglass 51,52 can be saved the Raw materials for lenses of extension 225 because of no known extension 225 during manufacturing, reaches the lower effect of manufacturing cost.
Five, be the some contact between this draw-in groove 514, the fixture block 524, rather than the face contact, chimeric power is moderate, can too tightly not make this optics active zone 515,525 produce stress or distortion, improves resolving power.
Six, this draw-in groove 514,524 chimeric powers of fixture block are moderate, therefore need not make the chimeric place of this draw-in groove 514, fixture block 524 loose excessively in order to prevent to produce stress or distortion, so the center of the front and back position of this first and second eyeglass 51,52 and these optics active zones 515,525 all can keep correctly, reached the effect that improves optical property.
Consult Fig. 6, Fig. 7, Fig. 8, be respectively the present invention and have the assembled sectional view of second preferred embodiment of the camera lens module of embedded structure, rear view and front view, this second preferred embodiment of camera lens module with embedded structure is roughly identical with this first preferred embodiment, it is to be the continuous shape of whole circle that its difference is in these draw-in grooves 514 of this first eyeglass 51, these card paddy portions 517 link to each other, and it is planar to be the annulus vertical with this optical axis 700, card sidepiece 518 links to each other in these, these wild card sidepieces 518 ' also link to each other, and inclination extends these card paddy portion 517 two ends and is conical surface shape respectively.
These fixture blocks 524 of this second eyeglass 52 are to be the continuous shape of whole circle, and form the dome ring jointly, this inside and outside contact part 528,528 ' with this inside and outside card sidepiece 518,518 ' between contact for line.This second eyeglass 52 has been cancelled the setting of this annular groove 529 (as shown in Figure 3), and the fixed area 516 of this first eyeglass 51 forms the annular groove 519 that is positioned at these draw-in groove 514 inboards and is installed with for this anti-dazzling screen 6.By this, can reach the described effect of this first preferred embodiment equally.
What deserves to be mentioned is that this lens set 5 not necessarily will together be made with this lens barrel 4 peddles, this lens set 5 with embedded structure also can be made separately and peddle, this lens set 5 can comprise the eyeglass above two in addition, as long as be to be connected with the embedded structure of draw-in groove 514 each other, all can reach the described effect of the foregoing description with these fixture blocks 524.
The above only is preferred embodiment of the present invention, can not limit scope of the invention process with this, and promptly all simple equivalent of being done according to claim of the present invention and invention description content change and modify, and all still belongs in the scope that patent of the present invention contains.
Claims (14)
1. the lens set with embedded structure is characterized in that, comprising:
First eyeglass, first inner face and first outer face that comprise opposing setting, and a plurality of draw-in grooves, this first inner face has the optics active zone, and around the fixed area of this optics active zone, being centered close on the optical axis of this optics active zone, these draw-in grooves are along the circumferential direction to be formed at this fixed area, and towards this first outer face extension, and respectively has Ka Gubu; And
Second eyeglass, second inner face and second outer face that comprise opposing setting, and a plurality of fixture blocks, this first and second inner face faces with each other, this second inner face has the optics active zone, reach fixed area around this optics active zone, being centered close on this optical axis of this optics active zone, these fixture blocks are to be formed at this fixed area along this circumferencial direction, and towards this first inner face extension, and have the card peak portion of contiguous this first inner face, these fixture blocks embed these draw-in grooves respectively, and define the slit between this card peak portion and this card paddy portion.
2. according to the described lens set of claim 1 with embedded structure, it is characterized in that, each draw-in groove of this first eyeglass also has interior card sidepiece and the wild card sidepiece that is respectively adjacent to diametrically with away from this optical axis, this card paddy portion connects this inside and outside card sidepiece, each fixture block of this second eyeglass also has interior contact part and the outer contact part that props up this inside and outside card sidepiece respectively, and this card peak portion connects this inside and outside contact part.
3. according to the described lens set of claim 2 with embedded structure, it is characterized in that, these draw-in groove spaces of this first eyeglass, it is vertical with this optical axis plane that this card paddy portion of each draw-in groove is, the inside and outside card sidepiece of each draw-in groove tilts to extend this card paddy portion two ends away from each other and respectively, these fixture block spaces of this second eyeglass, the inside and outside contact part of this of each fixture block and this card peak portion is common to be formed hemispherically, is to contact between this inside and outside contact part and this inside and outside card sidepiece.
4. according to the described lens set with embedded structure of claim 3, it is characterized in that, also comprise annular anti-dazzling screen, the fixed area of this second eyeglass forms and is positioned at the annular groove that these fixture blocks are inboard and supply this anti-dazzling screen to be installed with.
5. according to the described lens set of claim 2 with embedded structure, it is characterized in that, these draw-in grooves of this first eyeglass are to be the continuous shape of whole circle, these card paddy portions link to each other, and it is planar to be the annulus vertical with this optical axis, card sidepiece links to each other in these, these wild card sidepieces also link to each other, and inclination extends these card paddy portion two ends and is conical surface shape respectively, these fixture blocks of this second eyeglass are to be the continuous shape of whole circle, and form the dome ring jointly, contact for line between this inside and outside contact part and this inside and outside card sidepiece.
6. according to the described lens set with embedded structure of claim 5, it is characterized in that, also comprise annular anti-dazzling screen, the fixed area of this first eyeglass forms and is positioned at the annular groove that these draw-in grooves are inboard and supply this anti-dazzling screen to be installed with.
7. the camera lens module with embedded structure is characterized in that, comprising:
Lens barrel comprises the barrel around optical axis, and the internal face of this barrel defines accommodation space;
Lens set is located in this accommodation space, and this lens set comprises:
First eyeglass, first inner face that comprises opposing setting and first outer face, be connected first outer ring surface of this first inside and outside end face, and a plurality of draw-in grooves, this first inner face has the optics active zone, and around the fixed area of this optics active zone, being centered close on this optical axis of this optics active zone, has first gap between the internal face of this first outer ring surface and this barrel, these draw-in grooves are along the circumferential direction to be formed at this fixed area, and extend towards this first outer face, and respectively have Ka Gubu; And
Second eyeglass, second inner face and second outer face that comprise opposing setting, connect this in second, second outer ring surface of outer face, and a plurality of fixture blocks, this is first years old, two inner faces face with each other, this second inner face has the optics active zone, reach fixed area around this optics active zone, being centered close on this optical axis of this optics active zone, has second gap between the internal face of this second outer ring surface and this barrel, these fixture blocks are to be formed at this fixed area along this circumferencial direction, and extend towards this first inner face, and have the card peak portion of contiguous this first inner face, these fixture blocks embed these draw-in grooves respectively, and define the slit between this card peak portion and this card paddy portion.
8. according to the described camera lens module of claim 7 with embedded structure, it is characterized in that, the internal face of this barrel forms the first rank portion and the second rank portion, this first and second eyeglass lays respectively in this first and second rank portion, have this first gap between this first outer ring surface and this first rank portion, have this second gap between this second outer ring surface and this second rank portion.
9. according to the described camera lens module of claim 8, it is characterized in that this first gap is less than this second gap with embedded structure.
10. according to the described camera lens module of claim 9 with embedded structure, it is characterized in that, each draw-in groove of this first eyeglass also has interior card sidepiece and the wild card sidepiece that is respectively adjacent to diametrically with away from this optical axis, this card paddy portion connects this inside and outside card sidepiece, each fixture block of this second eyeglass also has interior contact part and the outer contact part that props up this inside and outside card sidepiece respectively, and this card peak portion connects this inside and outside contact part.
11. according to the described camera lens module of claim 10 with embedded structure, it is characterized in that, these draw-in groove spaces of this first eyeglass, it is vertical with this optical axis plane that this card paddy portion of each draw-in groove is, the inside and outside card sidepiece of each draw-in groove tilts to extend this card paddy portion two ends away from each other and respectively, these fixture block spaces of this second eyeglass, the inside and outside contact part of each fixture block and this card peak portion is common to be formed hemispherically, is to contact between this inside and outside contact part and this inside and outside card sidepiece.
12., it is characterized in that according to the described camera lens module of claim 11 with embedded structure, also comprise annular anti-dazzling screen, the fixed area of this second eyeglass forms and is positioned at the annular groove that these fixture blocks are inboard and supply this anti-dazzling screen to be installed with.
13. according to the described camera lens module of claim 10 with embedded structure, it is characterized in that, these draw-in grooves of this first eyeglass are to be the continuous shape of whole circle, these card paddy portions link to each other, and it is planar to be the annulus vertical with this optical axis, card sidepiece links to each other in these, these wild card sidepieces also link to each other, and inclination extends these card paddy portion two ends and is conical surface shape respectively, these fixture blocks of this second eyeglass are to be the continuous shape of whole circle, and form the dome ring jointly, contact for line between this inside and outside contact part and this inside and outside card sidepiece.
14., it is characterized in that according to the described camera lens module of claim 13 with embedded structure, also comprise annular anti-dazzling screen, the fixed area of this first eyeglass forms and is positioned at the annular groove that these draw-in grooves are inboard and supply this anti-dazzling screen to be installed with.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007101488402A CN101377560B (en) | 2007-08-29 | 2007-08-29 | Lens group and lens module with fitting structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007101488402A CN101377560B (en) | 2007-08-29 | 2007-08-29 | Lens group and lens module with fitting structure |
Publications (2)
| Publication Number | Publication Date |
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| CN101377560A true CN101377560A (en) | 2009-03-04 |
| CN101377560B CN101377560B (en) | 2011-01-12 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2007101488402A Expired - Fee Related CN101377560B (en) | 2007-08-29 | 2007-08-29 | Lens group and lens module with fitting structure |
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| CN (1) | CN101377560B (en) |
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| CN105518522B (en) * | 2013-09-18 | 2018-06-12 | 茨所株式会社 | Holding structure, camera filter block, camera filter cell and the imaging lens system of optical element |
| CN104516081A (en) * | 2013-09-30 | 2015-04-15 | 玉晶光电(厦门)有限公司 | Optical imaging lens |
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| CN101377560B (en) | 2011-01-12 |
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