SU1126916A1 - Projection lens - Google Patents

Abstract

A PROJECTION LENS, containing positive and negative lenses, a doublet folded from a negative and two-convex lenses, a positive lens, a positive meniscus facing its concavity to the image space, and an aperture diaphragm characterized in that, p. in order to eliminate distortion and increase the linear field of view with small dimensions and high illumination across the field, a negative meniscus is introduced after the positive meniscus, facing the concavity of the space of objects, the positive lenses are convex-flat, the planes facing each other, with This aperture diaphragm is set before the doublet. 1C od od od od

Description

1 The invention relates to the field of optical instrumentation, in particular to a projection lens, and can be applied to projection devices. A projection lens with similar characteristics is known. However, it has a considerable length of optics, low illumination. at the edge of the image floor (5%) and significant distortion. The closest in technical essence to the proposed is a projection lens containing a positive and negative lenses doublet glued together from negative and two-conic lenses, a positive lens, a positive meniscus with a concavity to the image space and an aperture diaphragm 2}. The lens can be used in a number of cases, but its design does not provide the required image quality and eliminate distortion with a significant increase in the linear field of view. The purpose of the invention is to eliminate distortion and increase the linear field of view with small dimensions and high illumination across the field. The goal is achieved in that a projection lens containing positive and negative lenses, a doublet glued from a negative and two-compound lenses, a positive ganza, a positive meniscus facing the image space, and an aperture diaphragm, after a positive meniscus a negative meniscus is inserted, facing concavity to the space of objects. 62 positive lenses are made convex-flat, and negative ones are flat-concave, facing planes towards each other, with the aperture diaphragm installed before the doublet. The drawing shows the optical layout of the lens. In front of the diaphragm DD there are flat convex and flattened lenses 1 and 2. Behind the diaphragm there are glued doublet consisting of flat-curved 3 and double convex 4 lenses, flat convex lens 5, positive meniscus b and negative 7 facing inward to each other. Thus, the proposed design of the optical system of the lens provides the possibility of obtaining a lens having an enlarged 2 times linear field of view (2,0 120 mm), eliminated distor (Angle-Wo 100% 0.03%) and high illumination across the field (at the edge 33 %) with small dimensions: the length of the optics is L ci 1,5 f, the light diameters of the lenses do not exceed 0,95 f. Thus, with small dimensions and high illumination across the field, the linear visual field was doubled and the distortion was eliminated. The lens is designed to project an image from a screen of a cathode ray tube onto a translucent screen with a magnification of 7.3. The lens has a focal distance of 90 mm, a relative aperture of 1: 1.4, an angular field of view of 60, a lens optics length of 153 mm, and a diameter of optics of no more than 90 mm.

Claims (1)

A PROJECTIVE LENS containing positive and negative lenses, a doublet glued from a negative and biconvex lens, a positive lens, a positive meniscus facing concavity to the image space, and an aperture diaphragm, characterized in that, p. In order to eliminate distortion and increase the linear field of view at small dimensions and high illumination in the field, after a positive meniscus, a negative meniscus was introduced, facing concavity to the space of objects, positive lenses were made convex-flat, and negative lenses were made flat-concave, facing planes to each other, while an aperture diaphragm is installed in front of the doublet. SU „„ 1126916 112'6916