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High-performance infrared confocal super-definition security lens

A high-performance, infrared technology, applied in the field of infrared confocal ultra-clear security lenses, can solve the problems of insufficient lens chromatic aberration optimization, small working temperature range, poor infrared imaging effect, etc., and achieve good image color reproduction, good chromatic aberration optimization, and short TTL. Effect

Pending Publication Date: 2021-06-04
XIAMEN LEADING OPTICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are still many deficiencies in the existing security lenses, such as: the zoom lens of this focal length segment has relatively small light transmission, the aperture value is generally greater than 2.2 for short focal lengths, and 3 or even larger for long focal lengths, and the relative illumination at the edge of the imaging surface is relatively low ;The working temperature range that the zoom lens of this focal length segment can support is very small, and when used in a high and low temperature environment, the out-of-focus is very serious; the general chromatic aberration optimization of the lens is insufficient, and blue-purple fringing is prone to occur; the zoom lens of this focal length segment has a relatively large TTL , the overall length of the structure is also relatively long; the resolution of the zoom lens in this focal length range is not high, and the edge imaging is not clear; the zoom lens in this focal length range can see the focus, and the infrared imaging effect is poor

Method used

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  • High-performance infrared confocal super-definition security lens
  • High-performance infrared confocal super-definition security lens
  • High-performance infrared confocal super-definition security lens

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0088] refer to figure 1 As shown, this embodiment discloses a high-performance infrared confocal ultra-clear security lens, which sequentially includes the first lens to the fifteenth lens along an optical axis from the object side A1 to the image side A2; the first lens to the fifteenth lens Each includes an object side facing the object side A1 and allowing the imaging light to pass through, and an image side facing the image side A2 and allowing the imaging light to pass through;

[0089] The first lens 1 has negative refractive power, the object side of the first lens 1 is convex, and the image side is concave; the second lens 2 has positive refractive power, the object side of the second lens 2 is convex, and the image side is convex; The third lens 3 has a positive refractive power, the object side of the third lens 3 is convex, and the image side is concave; the first lens 1 to the third lens 3 are fixed lens groups, relatively fixed on the optical axis relative to the...

Embodiment 2

[0115] Cooperate Figure 12 to Figure 22 As shown, the concave-convex surface and refractive power of each lens in this embodiment and the first embodiment are roughly the same, and the optical parameters such as the radius of curvature of the lens surface and the thickness of the lens are different.

[0116] The detailed optical data of this specific embodiment is shown in Table 2.

[0117] The detailed optical data of table 2 embodiment two

[0118]

[0119]

[0120] Please refer to the table below for the detailed data of the parameters of the eleventh lens 11 aspheric surface in this specific embodiment:

[0121] Face number K A4 A6 A8 A10 A12 19 -1.01 4.700E-05 9.507E-07 -3.416E-08 7.575E-10 5.314E-12 20 -4.97 8.600E-05 -8.718E-07 2.406E-08 -7.381E-10 2.562E-11

[0122] In this specific embodiment, the focal length fw=12.4555mm and ft=38.0196 when the zoom lens is short-focused; the aperture value FNO=1.89-2.02; TTLt=63.850...

Embodiment 3

[0125] Cooperate Figure 23 to Figure 33 As shown, the concave-convex surface and refractive power of each lens in this embodiment and the first embodiment are roughly the same, and the optical parameters such as the radius of curvature of the lens surface and the thickness of the lens are different.

[0126] The detailed optical data of this specific embodiment is shown in Table 3.

[0127] The detailed optical data of table 3 embodiment three

[0128] surface radius of curvature Thickness (short focus / telephoto) material Refractive index Dispersion coefficient focal length 0 subject surface Infinity 20000.000 1 first lens 99.495 1.250 H-ZF7LA 1.805 25.477 -84.117 2 second lens 40.075 3.830 FCD515 1.593 68.624 44.449 3 -74.215 0.100 4 third lens 22.227 3.100 FCD1 1.497 81.608 82.211 5 46.486 (1.729 / 16.405) 6 fourth lens -70.731 0.750 H-LAF50B 1.773 49.61...

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Abstract

The invention discloses a high-performance infrared confocal super-definition security lens, which comprises a first lens to a fifteenth lens, each of the first to fifteenth lenses comprises an object side surface and an image side surface; the first to third lenses form a fixed lens group; the fourth lens to the sixth lens form a zoom lens group; the seventh lens to the ninth lens form a fixed lens group; the tenth lens to the fifteenth lens form a compensation lens group; and the optical imaging lens has only fifteen lenses with refractive indexes. The large-light-transmission design is adopted, and it is guaranteed that the relative illuminance of the edge of an imaging face is uniform; the whole system adopts athermalization optimization, and under the condition of normal-temperature focusing, defocusing is avoided at high and low temperatures; the color difference optimization is good, the image color reducibility is good, and no blue-purple edge phenomenon exists; TTL is very short, and the total structure is short; the resolution is high, the edge imaging is clear, the 4K requirement can be met, and the image quality is clear and stable; and the infrared confocal property is good, and clear imaging can be ensured in a night mode.

Description

technical field [0001] The invention relates to the field of lens technology, in particular to a high-performance infrared confocal ultra-clear security lens. Background technique [0002] The security lens generally refers to the monitoring lens of the surveillance camera. The security lens is widely used because of its advantages such as high sensitivity, anti-glare, small distortion, small size, long life, and anti-vibration. There are still many deficiencies in the existing security lenses, such as: the zoom lens of this focal length segment has relatively small light transmission, the aperture value is generally greater than 2.2 for short focal lengths, and 3 or even larger for telephoto lenses, and the relative illumination at the edge of the imaging surface is relatively low ;The working temperature range that the zoom lens of this focal length segment can support is very small, and when it is used in a high and low temperature environment, the out-of-focus is very se...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B15/14G02B15/16G02B13/00G02B13/18G02B13/14
CPCG02B13/0015G02B13/0045G02B13/006G02B13/008G02B13/009G02B15/16G02B15/144
Inventor 曹来书潘锐乔黄波
Owner XIAMEN LEADING OPTICS
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