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Shooting optical lens

A technology of optical lens and optical total length, which is applied in the field of optical lens, can solve the problems of irrational setting of focal power, lens distance and lens shape, inability to meet large aperture, ultra-thin, wide-angle, etc., and achieve good optical performance Effect

Active Publication Date: 2019-11-22
AAC OPTICS (CHANGZHOU) CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, with the development of technology and the increase of diversified needs of users, as the pixel area of ​​the photosensitive device continues to shrink, and the system’s requirements for imaging quality continue to increase, the five-element lens structure gradually appears in the lens design. Common Although the five-element lens already has good optical performance, its focal power, lens spacing and lens shape settings still have certain irrationality, resulting in a lens structure that cannot meet the needs of large aperture, large aperture, and lens shape while having good optical performance. Ultra-thin, wide-angle design requirements

Method used

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Examples

Experimental program
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Effect test

no. 1 approach

[0051] Please refer to the accompanying drawings, the present invention provides a camera optical lens 10 . figure 1 Shown is the imaging optical lens 10 of the first embodiment of the present invention, the imaging optical lens 10 including five lenses. Specifically, the imaging optical lens 10 includes, from the object side to the image side in sequence: an aperture S1, a first lens L1 with a positive refractive power, a second lens L2 with a negative refractive power, and a third lens L2 with a negative refractive power. Lens L3, fourth lens L4 with positive refractive power, and fifth lens L5 with negative refractive power. An optical element such as an optical filter (filter) GF may be disposed between the fifth lens L5 and the image plane Si.

[0052] In this embodiment, the radius of curvature of the object side of the second lens L2 is defined as R3, and the radius of curvature of the image side of the second lens L2 is R4, satisfying the following relationship: 0.60≤...

no. 2 approach

[0139] The second embodiment is basically the same as the first embodiment, and the meanings of symbols are the same as those of the first embodiment. For the structure of the imaging optical lens 20 of the second embodiment, please refer to Figure 5 As shown, only the differences are listed below.

[0140] Table 5 and Table 6 show design data of the imaging optical lens 20 according to the second embodiment of the present invention.

[0141] 【table 5】

[0142]

[0143] Table 6 shows the aspheric surface data of each lens in the imaging optical lens 20 according to the second embodiment of the present invention.

[0144] 【Table 6】

[0145]

[0146] Table 7 and Table 8 show the design data of inflection point and stagnation point of each lens in the imaging optical lens 20 according to the second embodiment of the present invention.

[0147] 【Table 7】

[0148] Number of inflection points Inflection point position 1 Inflection point position 2 Inflec...

no. 3 approach

[0155] The third embodiment is basically the same as the first embodiment, and the meanings of symbols are the same as those of the first embodiment. For the structural form of the imaging optical lens 30 of the third embodiment, please refer to Figure 9 As shown, only the differences are listed below.

[0156] Table 9 and Table 10 show design data of the imaging optical lens 30 according to the third embodiment of the present invention.

[0157] 【Table 9】

[0158]

[0159] Table 10 shows the aspheric surface data of each lens in the imaging optical lens 30 of the third embodiment of the present invention.

[0160] 【Table 10】

[0161]

[0162] Table 11 and Table 12 show the design data of the inflection point and the stagnation point of each lens in the imaging optical lens 30 according to the third embodiment of the present invention.

[0163] 【Table 11】

[0164] Number of inflection points Inflection point position 1 Inflection point position 2 I...

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Abstract

The invention provides a shooting optical lens comprising a first lens having the positive refractive power, a second lens having the negative refractive power, a third lens having the negative refractive power, a fourth lens with the positive refractive power and a fifth lens with the negative refractive power. The curvature radius of the object side of the second lens is R3, he curvature radiusof the image side of the second lens is R4, the curvature radius of the object side of the third lens is R5, the curvature radius of the image side of the third lens is R6, the curvature radius of theobject side of the fifth lens is R9, the curvature radius of the image side of the fifth lens is R10, the axial distance between the image side of the fourth lens and the object side of the fifth lens is d8, and the axial thickness of the fifth lens is d9. The parameters met the following relationships: (R3+R4) / (R3-R4) is larger than or equal 6.0 and is less than or equal to 0.7; the (R5+R6) / (R5-R6) is larger than or equal -5.0 and is less than or equal to -4.20; (R9+R10) / (R9-R10) is larger than or equal 0.85 and is less than or equal to 0.89; and d8 / d9 is larger than or equal 1.10 and is less than or equal to 1.20. The shooting optical lens has the good optical performance and meets the large aperture, wide-angle, and ultra-thin design requirements.

Description

【Technical field】 [0001] The invention relates to the field of optical lenses, in particular to an imaging optical lens suitable for portable terminal devices such as smart phones and digital cameras, and imaging devices such as monitors and PC lenses. 【Background technique】 [0002] In recent years, with the rise of smart phones, the demand for miniaturized photographic lenses has been increasing, and the photosensitive devices of general photographic lenses are nothing more than photocoupled devices (Charge Coupled Device, CCD) or complementary metal oxide semiconductor devices (Complementary Metal -Oxide Semiconductor Sensor, CMOS Sensor), and due to the improvement of semiconductor manufacturing process technology, the pixel size of photosensitive devices has been reduced, and today's electronic products are developing with good functions and thin, light and small appearance. Therefore, it has Miniaturized camera lenses with good imaging quality have become the mainstrea...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B13/00G02B13/06G02B13/18
CPCG02B13/0045G02B13/06G02B13/18G02B9/60
Inventor 石荣宝孙雯寺冈弘之
Owner AAC OPTICS (CHANGZHOU) CO LTD
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