RU2063058C1 - Objective with discrete changes in focus length for wide spectral range - Google Patents

Abstract

FIELD: optical instrument engineering. SUBSTANCE: objective has four components. The third and the fourth ones are mounted for introducing and rejecting these components out of optical circuit for making changes in focus length. The first and the second components provide focus length being equal to 449.22 mm and narrow field of view mode. To provide focus length of 117.41 mm, i.e. wide angle field of view mode, the third component is introduced between the first and the second ones; the fourth component is introduced behind the second one. The first component has single positive and negative lenses and one double-glued lens, formed by biconcave and biconvex lenses. The second component has positive and negative menisci turned with their concavities to each other. The third component has biconcave lens and positive meniscus turned with its convexity to object. The fourth component has biconvex lens, double-glued lens formed by negative and positive lenses, and positive meniscus turned with its convexity to object. EFFECT: improved efficiency of operation. 9 dwg

Description

 The invention relates to special lenses and can be used in trailers.

Known for the design of lenses with a discrete change in focal length [1]
The closest in technical essence is a lens with a discrete change in focal length [2] which is made of the following components in series and lenses in them:
the first component of a biconvex lens, a negative meniscus facing concavity to the subject, and a biconvex lens;
the second component is a glued lens, consisting of a positive meniscus convex to the subject and a negative meniscus facing concavity to the image;
the third component consists of a negative meniscus facing concavity to the image, a biconvex lens and a biconcave lens, mounted behind the second component with the ability to enter and output it from the optical circuit;
the fourth component is a biconvex and biconcave lens, mounted behind the third component with the ability to enter and output it from the optical circuit. The specified lens is designed for a small spectral range of 0.434-0.65 microns and has a multiplicity of -2 ^x .

 Moreover, the lens has insufficient image quality due to the chromatism of the position of the secondary spectrum at the maximum focal length and a small magnification.

 The objective of the invention is to provide a lens with a discrete change in focal length from f '117.41 to 449.22 mm, with a relative aperture from 1 4.7 to 1 5.99.

The essence of the invention lies in the fact that the lens with a discrete change in focal length for a wide region of the spectrum, containing four components, the first component made of a biconvex, negative lenses and a biconvex lens;
the second component is made of a negative lens and a positive meniscus convex to the subject;
the third component is made of a positive lens and a negative meniscus; the fourth component of a biconvex lens and a negative lens, installed with the possibility of input and output from the optical circuit, in contrast to the known component, the negative component in the first component is made in the form of a biconcave, and the last biconvex lens is glued with a biconcave lens, in the second component of the lens are glued, the negative lens is located first and made in the form of a biconcave and it is installed with the possibility of input and output from the optical circuit, the third component is made of a positive meniscus, facing th convex to the object and a negative meniscus has a concavity directed to the subject; the fourth component has a negative lens made in the form of a meniscus directed by a concavity to the image and supplemented by a biconvex lens glued to the previous negative meniscus, and a positive meniscus directed by the convexity to the object.

 This embodiment allows you to get a lens with the following characteristics (see table).

The invention is illustrated by drawings:
figure 1 optical diagram of the lens;
FIG. 2, 3, the structural elements of the lens with a focal length f '117.47 mm and f' 449.2 mm

FIG. 4, 5 a summary of aberrations for focal lengths for D = ∞;
FIG. 6, 7 graphs of aberration for D = ∞ .;
FIG. 8, 9 graphs of the modulation transmission coefficient (KPM).

 A lens with a discrete change in focal length for a wide spectral region consists of four components, the second and fourth mounted with the ability to input and output them from the optical circuit.

 The first component contains a biconvex lens 1, a biconcave lens 2, a glued lens consisting of a biconvex lens 3 and a biconcave lens 4. The second component consists of a biconcave lens 5 and a positive meniscus 6, convex to the object. The third component contains a positive meniscus 7, convex to the object, and a negative meniscus 8, facing concavity to the object. The fourth component consists of a biconvex lens 9, a glued lens, consisting of a negative meniscus 10, facing concavity to the image, and a biconvex lens 11, and a positive meniscus 12, convex to the subject. The objective is used in the following way.

 The first component (lenses 1, 2, 3, 4) and the third component (lenses 7, 8) provide a focal length f 'of 449.22 mm (narrow field of view), while the aperture diaphragm is on the first component on the first surface.

 To obtain a focal length f 'of 117.41 mm, the second (lenses pos. 5, 6) and fourth (lenses pos. 9, 10, 11, 12) components are introduced into the optical circuit, the second component being inserted between the first and third components, and the fourth after the third component, the aperture diaphragm is located on the second component on the first surface. TTT1 YYY2 YYY4 YYY6 YYY8

Claims (1)

 A lens with a discrete focal length change for a wide spectral region, containing four components, the first of which consists of a biconvex lens, negative and positive lenses, the second is made in the form of a positive meniscus, convex to the object, the third component contains the meniscus, convex to the object, and a negative lens, and the fourth biconvex lens and a single lens, while the fourth component is installed with the possibility of its input and output from the optical axis, characterized in that in the first component, the negative lens is biconcave, and positive in the form of a double-glued meniscus facing concavity to the image and consisting of a biconvex and biconcave lenses, in the second component a biconcave lens is inserted in front of the positive meniscus, in the third component the meniscus is positive and the negative meniscus lens , facing concavity to the object, and in the fourth component between the biconvex lens and a single lens, made in the form of a positive meniscus, facing On convexity to the subject, a double-glued positive lens is introduced, consisting of a negative meniscus and a biconvex lens, while the second component is installed with the possibility of its input and output from the optical axis.

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