SU1670661A1 - Process lens - Google Patents

Abstract

The invention relates to optical systems, namely, reproduction lenses with an eccentrically located entrance pupil, and can be used to increase the scale of a long-focus lens with an eccentrically located image field. The purpose of the invention is to increase the image scale while simultaneously reducing the size of the lens. The reproduction lens contains the first component 1, which includes a single double-curved lens 1 and two-convex lens 2, the second component II, which includes a single positive meniscus 3, convexity facing the image plane, and the double-curved lens 4, and the third component III, made in the form of two a co-convex lens 5. The focal length of the lens is F = 623.88 mm, linear increase β = 1.6 ^X , longitudinal dimensions 0.6 m. 1 sludge.

Description

The invention relates to optical systems, namely, reproduction lenses with an eccentrically located entrance pupil, and can be used to zoom in on an image of a long-focus lens with an eccentrically located image field.

The aim of the invention is to increase the image scale while simultaneously reducing the lens dimensions.

The drawing shows the principal optical scheme of a reproduction lens.

The reproduction lens contains three components. The first component I consists of two consecutive single bicon-bent 1 and biconvex 2 lenses; the second component II consists of a single positive meniscus 3, convex to the image plane, and a double-curved lens 4; the third component III is a single binary lens 5.

The luminous flux directed to the eccentric located entrance pupil passes sequentially through the lenses 1-5 and builds an image in the plane of the images.

As a concrete example, a lens with the following characteristics was calculated: focal length of the lens f1 623.88 mm; linear increase / 1.6X; longitudinal dimensions of 0.6 m; the entrance pupil of the lens is placed eccentrically relative to the optical axis of the lens and is located at a distance of Zvh.zr 20460 mm from the first surface of the lens, the center of the entrance pupil is offset relative to the axis of symmetry by the value of 763 mm perpendicular to the object plane; linear field image 2Y 196 mm.

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The first component I, in the form of consecutive biconcave 1 and two convex 2 lenses, is designed to correct spherical aberration, chromatic aberration of the position, and spherochromatic aberration in a wide beam of rays. In this case, the sequence of arrangement of double-concave 1 and double-convex 2 lenses is due to the need to correct spherochromatic aberration.

To eliminate coma and astigmatism, the first lens of the second component II is made in the form of a positive meniscus 3, convex to the image plane.

The third component III is made in the form of a double-convex lens 5, is located in the immediate vicinity of the image plane and serves to correct the curvature of the image field.

Claims (1)

Invention Formula A reproduction lens containing three components, the first of which is made in the form of single positive and negative lenses, the second in the form of single positive and negative lenses, the third in the form of a single lens, which differs from image scale while reducing the size of the lens, 35, the first component is in the form of after-. duplicated double-coiled and double-convex lenses, the second component is designed as a positive meniscus convex to the plane 40 images, and two co-curved lenses, and the third component is made in the form of a co-convex lens.