Camera shooting optical lens
A technology of optical lens and optical total length, applied in the field of optical lens, can solve the problems of unreasonable setting of large aperture, ultra-thin, wide-angle, focal power, lens distance and lens shape, etc.
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no. 1 approach )
[0033] Referring to the accompanying drawings, the present invention provides an imaging optical lens 10 . figure 1 Shown is the imaging optical lens 10 according to the first embodiment of the present invention, and the imaging optical lens 10 includes nine lenses in total. Specifically, the photographic optical lens 10, from the object side to the image side in sequence: aperture S1, first lens L1, second lens L2, third lens L3, fourth lens L4, fifth lens L5, sixth lens Lens L6, seventh lens L7, eighth lens L8, and ninth lens L9. An optical element such as an optical filter (filter) GF may be disposed between the ninth lens L9 and the image plane Si.
[0034]In this embodiment, the first lens L1 has a positive refractive power, the second lens L2 has a negative refractive power, the third lens L3 has a negative refractive power, the fourth lens L4 has a positive refractive power, and the fifth lens L5 has a positive refractive power , the sixth lens L6 has a negative refra...
no. 2 approach )
[0169] The second embodiment is basically the same as the first embodiment, and the meanings of the symbols are the same as those of the first embodiment, and only the differences are listed below.
[0170] Figure 5 Shown is the imaging optical lens 20 according to the second embodiment of the present invention. In this embodiment, the third lens L3 has positive refractive power.
[0171] Table 5 and Table 6 show design data of the imaging optical lens 20 according to the second embodiment of the present invention.
[0172] 【table 5】
[0173]
[0174] 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.
[0175] 【Table 6】
[0176]
[0177] 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.
[0178] 【Table 7】
[0179]
[0180] 【Table 8】
...
no. 3 approach )
[0186] The third embodiment is basically the same as the first embodiment, and the meanings of the symbols are the same as those of the first embodiment, and only the differences are listed below.
[0187] Figure 9 Shown is the imaging optical lens 30 of the third embodiment of the present invention. In this embodiment, the image side of the third lens L3 is convex at the paraxial position, and the object side of the fourth lens L4 is concave at the paraxial position. The object side of the nine lenses L9 is convex at the paraxial position, the third lens L3 has positive refractive power, the fourth lens L4 has negative refractive power, the fifth lens L5 has negative refractive power, and the eighth lens L8 has negative refractive power.
[0188] Table 9 and Table 10 show design data of the imaging optical lens 30 according to the third embodiment of the present invention.
[0189] 【Table 9】
[0190]
[0191] Table 10 shows the aspheric surface data of each lens in the ...
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