SU1144079A1 - Wide-angle lens - Google Patents

Abstract

A WIDE-COARE LENS, containing seven components, the first of which is a negative meniscus convex to the object, the second is a positive lens, the third is a negative meniscus convex to the object, the fourth is a negative lens, the fifth two-convex lens, the sixth component consists of a negative and positive meniscus, which I are convex to the object, and the seventh positive, characterized in that, in order to provide a telecentric path of the rays in the image space and increase the quality image image by reducing distortion, for the seventh component, two double-enclosures are installed. convex lenses with a negative meniscus located between them, obratnaya concavity to the object, the first of which is glued together from the negative meniscus and two lenses, while the second component is made in the form of a meniscus convex to the object, the fourth component is a double curved lens , the sixth component is made of single lenses, and the seventh is in the form of a single meniscus with a concavity facing the object. ff 10 11 fZ

Description

The invention relates to optical instrumentation, namely to lens lenses with telecentric beam paths in the image space, and can be used in equipment for film, photo and television, including in measuring equipment. A wide-angle lens is known that provides a telecentric beam path in the image space. However, this lens has an insufficient angular field (7C), which prevents its use when shooting extended objects and a small relative aperture (1: 5). I ... In addition, with the aim of correcting aberrations (first of all, distortion), three aspherical surfaces were used in the lens, one of which is of the eighth order, and a three-glued component, which is associated with the known difficulties of the technological plan and an increase in the value of the object. The closest in technical essence to the present invention is a wide-angle lens containing seven components, the first of which is a negative meniscus facing the convex to the premet, the second is a two-convex lens, the third is a negative meniscus convex to the subject, the fourth is two The fifth lens is a double-folded lens, the sixth is a double-molded negative and positive meniscus convex to the object, and the seventh is a two-glued positive Sch. However, the known lens did not There is a telecentric beam path in the image space and has significant distortion (for an angular field of 2W 100 distortion is 12%), which limits the possibilities of using the lens in measuring equipment. , The purpose of the invention is to provide a trace of the rays in the image space and improve the image quality by reducing the distortion. The goal is achieved by the fact that in a wide-angle lens that contains seven components, the first of which is a negative meniscus convex to the object. 792 the second is a positive lens, the third is a negative meniscus convex to the object, the fourth is a negative lens, the fifth is a double-convex lens, the sixth component consists of negative and positive meniscuses convex to the object, and the seventh is positive, the seventh component is two two-convex lenses with a negative meniscus between them, a concavity facing the object, the first of which is glued from a negative meniscus and a two-convex lens, with the second component nt configured as a meniscus which is convex to the object, the fourth component - biconcave lens, a sixth component is made from single lens, and the seventh - a single meniscus facing concavity to the object, the drawing is a schematic diagram of the optical lens. The lens consists of successively located negative.1, positive 2 and negative 3 menisci convex to the object, biconcave 4 and two convex 5 lenses, negative 6 and positive 7 meniscus convex to the object, positive meniscus 8 facing indentation to the object, a two-convex lens, glued from a negative meniscus 9 and a two-convex lens 10, a negative meniscus 11 facing the concavity to the object, a two-convex lens 12. The first six lenses serve to develop This angular field with minimal distortion and ease of operation of the base system. Lenses 7 and 8 and gluing 9 and 10, framing the base system, are the strength elements and provide the necessary relative aperture. Lenses 11 and 12 compensate for the residual distortion of the objective when telecentric the course of the rays in the space of images. The lens has the following main characteristics: Angular field in the space of objects,. degrees 100 Relative aperture1: 3, 3 3. 1144 Focal length. mm11.9 Linear field in image space, Main wavelength, im 546.1 Working wavelength range, nm486.1-656.3 Resolution of min / MNf. in the center280. at the edge20 Residual distortion across the entire field,% Not more than 0.9 79 4 The proposed lens design, in contrast to the known one, ensures the body-centric motion of the main in space and avarage-images and reduces the residual distortion by 12 times) what excludes the action of two main factors affecting the image scale: the parallax error due to defocusing and distorsing objevtivl, with efficiency, the efficiency of the lens in measuring installations is furthermore tvey, but improved correction of all other lens aberrations.

Claims (1)

A PMD lens containing seven components, the first of which is a negative meniscus convex to the object, the second is a positive lens, the third is a negative meniscus convex to the object, the fourth is a negative lens, the fifth is a biconvex lens, and the sixth component consists of a negative and positive menisci, turned ί convex to the subject, and the seventh positive, characterized in that, in order to ensure telecentric rays in the image space and improve quality and images by reducing distortion, behind the seventh component are installed two-two-way. convex lenses with a negative meniscus located between them, ob-; extended concavity to the object, the first of which is glued from a negative meniscus and a biconvex lens, while the second component is made in the form of a meniscus convex to the object, the fourth component is a biconcave lens, the sixth component is made of single lenses, and the seventh - in the form a single meniscus facing concavity to an object.