RU2037855C1 - Reproduction objective - Google Patents

Abstract

FIELD: optical instrument engineering. SUBSTANCE: objective has two components separated by aperture diaphragm. The first component has positive meniscus turned with its concavity to image plane, and negative lens which is glued of biconcave and biconvex lenses. The second component has positive and negative lenses. Positive lens of the second component is made in form of meniscus turned with its concavity to subject plane. Negative lens is glued of biconcave and biconvex lenses. Objective permits to improve resolution significantly within the limits of image working field (no less than 100 lines per mm) and light distribution, if the objective operates together with condenser optical system. EFFECT: improved resolution; improved precision. 1 dwg, 1 tbl

Description

 The invention relates to optical instrumentation, in particular to reproductive lenses operating with a frame format of 24x36 mm.

A photographic lens is known that works the same as a reproductive lens with a 24x36 mm frame format, containing a positive meniscus facing concavity to the image plane, a negative lens in the form of a glued biconvex and biconcave lens and a positive glued lens located behind the aperture and a negative meniscus facing concavity to the plane of objects. A positive bonded lens located behind the aperture diaphragm consists of a negative meniscus convex to the image plane and a positive biconvex lens [1]
When used as a reproductive lens with a finite distance of at least 30 magnitudes of its focal lengths, this lens has a resolution of not more than 20 lines / mm within the entire working field of the image.

 The aim of the invention is to increase the resolution of the reproductive lens within the entire working field of the image while improving light distribution.

 The goal is achieved in that in a lens containing two components separated by an aperture diaphragm, the first of which contains a positive meniscus facing concavity to the image space and a negative lens glued from biconvex and biconcave lenses, and the second component contains a positive lens and a negative meniscus, facing concavity to the space of objects, the positive lens of the second component is made in the form of a meniscus facing concavity to the space of objects, and the negative meniscus is second This component is in the form of a glued lens containing a biconvex lens.

 The drawing shows a structural diagram of the lens.

 The lens consists of two components separated by an aperture diaphragm. The first component contains a positive meniscus 1, facing concavity to the image plane, and a negative lens glued from biconvex 2 and biconcave 3 lenses. The positive meniscus 1 serves to correct the aberrations of wide inclined beams of rays in the meridional section, the negative bonded lens provides the correction of the residual axial and field spherical aberrations. The second component of the lens is located behind the aperture diaphragm and contains a positive 4 and negative bonded lenses. The positive lens 4 is made in the form of a meniscus, facing concavity to the plane of objects, and is a power component to provide a given value of the focal length of the lens. A negative bonded lens includes a negative 5 and a positive 6 lens and serves to correct chromatic aberrations, as well as to achieve pupillary magnification of B <1.0 *.

 The reproduction lens, designed to work with magnification equal to -12.5 * in reading devices using a roll microfilm, has the design parameters shown in the table.

1:3,75.Σd 56.93; f '70.54 mm; S _F1 '-57.33 mm; S _F '33,65 mm; S ₁ -941.5 mm; 2 _y * 541.5 mm; 2 _y '43.3 mm; 1:

1: 3.75.

 The proposed lens has a resolution of at least 100 lines / mm within the entire working field of the image and provides improved light distribution over the field when it works together with the condenser system from a finite distance equal to 12 values of its focal length. Improved light distribution in the image is achieved due to the magnitude of the pupil magnification B <1.0 * while the distortion value is eliminated up to 0.3%.

Claims (1)

 REPRODUCTION LENS containing two components separated by an aperture diaphragm, the first of which contains a positive meniscus facing concavity to the image space and a negative lens glued from a biconvex and biconcave lens, and the second component contains a positive lens and a negative meniscus facing concavity to the space of objects , characterized in that in it the positive lens of the second component is made in the form of a meniscus facing concavity to the space of objects, and the negative ny meniscus of the second component in the form of a glued lens comprising a biconvex lens.

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