JP2012173559A - Infrared lens - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an infrared lens and a far-infrared lens in which coma-aberration is excellently corrected over the whole range from the telephoto side to the wide angle side, the whole length of the lens is not long even at the telephoto side, a back focus is not long, and the whole size is compact.SOLUTION: The infrared lens and the far-infrared lens each include, in order from an object side, a positive first lens group, a negative second lens group, and a positive third lens group.

Description

  The present invention relates to an infrared lens, and more particularly to an infrared lens that is excellent in correcting spherical aberration and coma aberration and is low in manufacturing cost. Here, infrared rays are radiation including mid-infrared rays having a wavelength of 3000 to 5000 nm and far infrared rays having a wavelength of 8000 to 14000 nm.

As a conventional infrared lens, the cost is reduced, the angle of view is increased by about 30 °, sufficient back focus is ensured compared to the focal length, and good optical performance is realized in the wavelength band of 7 μm to 14 μm. A lens has been proposed. The infrared lens includes, in order from the object side, a positive meniscus first lens L1 having a convex surface facing the object side, a stop, a negative meniscus second lens L2 having a concave surface facing the object side, and the object side. And a positive meniscus third lens L3 with a convex surface facing the surface. The focal length of the entire system is f, the radius of curvature of the object side surface of the second lens L2 is r4, the radius of curvature of the image side surface of the second lens L2 is r5, and the center thickness of the second lens L2 is When d4 is satisfied, the following conditional expressions (1) and (2) are satisfied.
0.4 <| r4 | / f <0.82 (1)
0.9 <(| r4 | + d4) / | r5 | <1.10 (2)
(For example, see Patent Document 1)

JP 2010-39243 A

  Since the infrared lens of Patent Document 1 was invented with an emphasis on widening the angle of view, standard aberration correction is performed on the wide-angle side, but on the telephoto side, the total lens length is long and the back focus is also long. In addition, the aberration correction is not sufficient, and it is an easy-to-use infrared lens. In particular, the infrared lens disclosed in Patent Document 1 has the above-described problems with respect to far infrared rays.

(Object of invention)
The present invention has been made in view of the above-described problems related to the conventional infrared lens, and corrects coma well for the entire region from the telephoto side to the wide-angle side, and the total length of the lens on the telephoto side is long. It is another object of the present invention to provide an infrared lens that does not have a long back focus.
The present invention provides an infrared lens that corrects coma well in the entire region from the telephoto side to the wide-angle side, and does not increase the overall length of the lens and does not increase the back focus, particularly for far infrared rays. For the purpose.

The first invention is
The infrared lens includes a positive first lens group, a negative second lens group, and a positive third lens group in order from the object side.

The second invention is
The far-infrared lens includes a positive first lens group, a negative second lens group, and a positive third lens group in order from the object side.

  According to the first aspect of the present invention, it is possible to provide an infrared lens that can satisfactorily correct coma for the entire region from the telephoto side to the wide-angle side, and that the total lens length is not long and the back focus is not long on the telephoto side.

  According to the second invention, it is also possible to provide a far-infrared lens that can satisfactorily correct coma aberration over the entire range from the telephoto side to the wide-angle side, and that the total lens length is not long and the back focus is not long on the telephoto side. it can.

Embodiments of the present invention are as follows.
In the first invention and the second invention, the first to third lens groups are all single lenses.
By constituting all the lens groups with a single lens, the number of lenses can be reduced and the manufacturing cost can be kept low. Furthermore, it is possible to minimize the number of boundary surfaces between the lens and the air, reduce the loss of light amount due to the lens surface reflection, and effectively prevent the image contrast from being lowered due to the stray light due to the lens surface reflection.

According to another embodiment of the present invention, in the first and second inventions, when the focal length of the infrared lens is f and the curvature of the second lens group on the most object side surface is r4,
0.9 <| r4 | / f (1)
It is characterized by being.
Conditional expression (1) is a condition for favorably correcting spherical aberration. If the conditional expression (1) is not satisfied, the spherical aberration increases.

According to another embodiment of the present invention, in the first and second inventions, the curvature of the most object side surface of the second lens group is r4, the curvature of the most image side surface of the second lens group is r5, and the second lens is When the thickness of the group is d4,
0.5 <(| r4 | + d4) / | r5 | <0.86 (2)
It is characterized by being.
Conditional expression (2) is a condition for satisfactorily correcting the spherical aberration. If the conditional expression (2) is not satisfied, the spherical aberration increases.

According to another embodiment of the present invention, in the first and second inventions, when the focal length of the far-infrared lens is f and the focal length of the first lens group is f1,
1.0 <f1 / f <1.5 (3)
It is characterized by being.
Conditional expression (3) is a condition for satisfactorily correcting coma. When the conditional expression (3) is not satisfied, coma aberration increases.

In another embodiment of the present invention, in the first and second inventions, when the back focus of the infrared lens is bf and the focal length of the third lens group is f3,
0.2 <bf / f3 <0.4 (4)
It is characterized by being.
Conditional expression (4) is a condition for satisfactorily correcting coma. When the conditional expression (4) is not satisfied, coma aberration increases.

Another embodiment of the present invention is characterized in that in the first and second inventions, the third lens group is displaced in a direction orthogonal to the optical axis to correct image blur.
The third lens group is lighter in diameter and lighter than the first lens group, and can be easily displaced in a direction perpendicular to the optical axis. In addition, the driving mechanism for displacing the third lens group in the direction orthogonal to the optical axis can be disposed in the middle part and the rear part of the lens system, so that the entire lens can be compactly assembled.

It is an optical sectional view of the infrared lens of a 1st embodiment of the present invention. It is a spherical aberration diagram of the infrared lens of the first embodiment of the present invention. It is an astigmatism figure of the infrared lens of 1st Embodiment of this invention. It is a distortion aberration figure of the infrared lens of 1st Embodiment of this invention. It is a meridional coma aberration diagram of the infrared lens of the first embodiment of the present invention. It is a sagittal coma aberration diagram of the infrared lens of the first embodiment of the present invention. It is an optical sectional view of an infrared lens of a 2nd embodiment of the present invention. It is a spherical aberration diagram of the infrared lens of the second embodiment of the present invention. It is an astigmatism figure of the infrared lens of 2nd Embodiment of this invention. It is a distortion aberration figure of the infrared lens of 2nd Embodiment of this invention. It is a meridional coma aberration diagram of the infrared lens of the second embodiment of the present invention. It is a sagittal coma aberration diagram of the infrared lens of the second embodiment of the present invention.

Below, the lens data etc. of embodiment of the infrared lens of this invention are shown. The wavelength is 10 μm.
(First embodiment)
Focal length 50.0mm
Total length 99.21mm
Back focus 8.91mm
F / No 1.4

Surface number Curvature radius Thickness interval Radius Refractive index Focal length 1 50.4506 3.5 19.9 4.0032 58.25383
2 67.2052 15.0 19.2
s3 aperture 50.54 13.0
4 -47.1008 6.0 9.5 4.0032 -83.2086
5 -63.5872 10.76 10.2
6 30.5063 4.5 9.6 4.0032 30.38597
7 40.7545 8.91 8.6

The value of the conditional expression of the first embodiment is as follows.
Conditional expression (1) 0.942016
Conditional expression (2) 0.835086
Conditional expression (3) 1.165077
Conditional expression (4) 0.293227

(Second Embodiment)
Focal length 50.0mm
Total length 68.03mm
Back focus 8.261mm
F / No 1.4

Surface number Curvature radius Thickness interval Radius Refractive index Focal length 1 54.344 2.8 18.2 4.0032 57.44527
2 76.268 4.0 17.7
s3 aperture 27.71 16.75
4 -109.423 5.0 10.9 4.0032 -83.9773
5 -199.911 16.26 11.2
6 24.6746 4.0 9.7 4.0032 30.9991
7 29.4899 8.26 8.6

The value of the conditional expression of the first embodiment is as follows.
Conditional expression (1) 2.188468
Conditional expression (2) 0.572373
Conditional expression (3) 1.148905
Conditional expression (4) 0.266459

DESCRIPTION OF SYMBOLS 1 1st lens group 2 2nd lens group 3 3rd lens group r1 1st surface r2 2nd surface s3 Diaphragm r4 4th surface r5 5th surface r6 6th surface r7 7th surface

Claims (8)

  An infrared lens comprising a positive first lens group, a negative second lens group, and a positive third lens group in order from the object side.   The infrared lens according to claim 1, wherein the first lens group, the second lens group, and the third lens group are made of germanium.   The infrared lens according to claim 1, wherein all of the first to third lens groups are single lenses. When the focal length of the infrared lens is f and the curvature of the most object side surface of the second lens group is r4,
0.9 <| r4 | / f (1)
The infrared lens according to claim 1, wherein the infrared lens is an infrared lens. When the curvature of the most object side surface of the second lens group is r4, the curvature of the most image side surface of the second lens group is r5, and the thickness of the second lens group is d4,
0.5 <(| r4 | + d4) / | r5 | <0.86 (2)
The infrared lens according to claim 1, wherein the infrared lens is an infrared lens. When the focal length of the far-infrared lens is f and the focal length of the first lens group is f1,
1.0 <f1 / f <1.5 (3)
The infrared lens according to claim 1, wherein the infrared lens is an infrared lens. When the back focus of the infrared lens is bf and the focal length of the third lens group is f3,
0.2 <bf / f3 <0.4 (4)
The infrared lens according to claim 1, wherein the infrared lens is an infrared lens.   The infrared lens according to claim 1, wherein the image blur is corrected by displacing the third lens group in a direction perpendicular to the optical axis.

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