SU1007068A1 - Objective - Google Patents

Abstract

LENS LENS, containing three components, the first of which consists of positive and negative meniscus, facing a convexity to the object, the second - positive, glued meniscus facing the bulge, and the third component consists of a positive, convexity-facing meniscus to the image, glued from a double-concave and two-convex lenses, and two-convex lenses, which are aptly tied so that, in order to improve the image quality in the absence of vignetting and heat image space, in the first component, after a positive meniscus, a negative meniscus is introduced, the convexity is valuable to the object, the component is entered into a posterior meniscus installed after a two-convex lens, and facing the concavity to the image, and the second component is triple glued from the positive meniscus facing convexity to the subject, biconvex and bovine-curved lenses.

Description

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00 The invention relates to the field of optical instrumentation, and specifically to lens lenses used in television and film projection. A lens is known that contains two components, the first of which consists of three meniscuses, and the second of the two-glued and two-convex lenses ij. However, this lens, with a telecentric course of rays in space and an image, “has bad quality in imaging and considerable vintizing. Also known is a lens objective containing three components, the first of which consists of positive and negative menisci, convex towards the subject, the second is a positive glued meniscus convex to the object, and the Tpe component consists of a positive meniscus facing convexity to an image glued double-curved and double-convex lenses, and double-convex lenses. at a focal length of that volume of 52 mm, a relative distance of 1: 1.4 and a field of view of 45, the scattering circle diameter is 0.05 mm for a point on the axis and about 0.4 mm for the edge of view 2. The use of the known lens in the telecentric course of rays in the image space leads to a sharp deterioration in the image quality. Even with a field of vision 2 (5-20 and a relative aperture of 1: 2.5, the circle of scattering increases to 2 mm. With a further increase in the field of view, vignetting increases. The aim of the invention is to improve the image quality in the absence of vignetting and telecentric ray path. The goal is achieved By using a lens in the first component, after a positive meniscus, a negative meniscus, convex to the object, is introduced, a positive meniscus is inserted in the third component, installed after the two-convex LiAZ and reversed the second component is three-glued from a positive meniscus convex to the object, a two-convex and two-concave lenses. The figure shows the principal optical scheme of the lens. The lens consists of three components I-III. Component I consists of positive 1 and two negative Meniscus 2 and 3. Component II is a positive meniscus glued together from a positive meniscus 4, a two-convex 5 and a two-concave b lenses. Component III consists of a positive meniscus glued together from a bent 7 and a double convex 8 lenses, and a single double convex lens 9 and a positive meniscus 10. The focal length of the lens 100, relative aperture 1: 2.5, field of view 44. The lens is calculated for I 0.525 microns, achromatized from 0.5 to 0.55 microns. The proposed lens has a good image quality: the diameter of the circle for the point on the axis is 0.01 mm, for the edge of the field, the view is 0.05 mm. The lens has no vignetting and can be used in color television projectors where a telecentric beam path is necessary.

Claims (1)

1 LENS LENS, containing three components, the first of which consists of positive and negative menisci facing towards the object, the second is the positive glued meniscus convex to the object, and the third component consists of the positive meniscus convex to the image glued of biconcave and biconvex lenses, and biconvex lenses, with the fact that, in order to improve image quality in the absence of vignetting, and telecentric rays in space TBE image, the first component after a positive meniskavveden _g obraschannmy negative meniscus convex to the object 6, a third component introduced positive meniscus mounted after biconvex lens and a concavity facing to the image ,, and the second component of the positive meniscus trehskleenny facing convex to the object, biconvex and biconcave lenses.