SU1107088A1 - Fast wide-angle telecentric lens - Google Patents

Abstract

LIGHT-WIDE BROADENEURED TELENTCENTRIC OBJECTIVE contains two groups of lenses separated by an aperture diaphragm, the first of which consists of positive and negative meniscuses convex to the subject, the second is of positive and negative meniscuses facing yogurt 3. , and a block of two positive lenses, the second of which is double-convex, characterized in that, in order to increase the relative aperture and angular field of view while reducing the lens distortion, the meniscus and the first group of lenses are single, followed by a negative meniscus convex to the object, the first meniscus is positive, behind the first meniscus of the second lens group a positive meniscus is introduced, convex to the object, behind a block of two positive lenses and located behind it a negative meniscus introduced a positive meniscus convex to the subject, with the first meniscus of the second group of lenses being positive, and the first lens of the block of two positive positions. The lenses are made in the form of a meniscus with a concavity facing the object. 19 7 W U / 11

Description

The invention relates to optical instrumentation, namely, telecentric lens lenses in image space, and can be used, for example, in imaging and measurement installations, in particular for photographing and measuring traces of high energy particles in various track detectors. when performing nuclear research. A nine-lens telecentric wide-angle lens is known for use in imaging and measurement equipment for processing photographs from bubble chambers (1 J, Object has a sufficient criminal field of view (70 °) and allows an orthoscopic image to be obtained. However, the correction of the said distortion the lens is carried out by introducing three aspherical surfaces, one of which is of the eighth order, which makes the construction low-tech, since The control of high-spherical surfaces of complex shapes presents known difficulties. In addition, the lens contains a component glued together from three lenses and an insufficient relative aperture. The back focal length of the specified lens does not exceed 0.1 of the focal length, which limits the practical use of the objective. Close to the invention is a high-aperture wide-angle telecentric lens containing two groups of lenses separated by an aperture diaphragm, the first of which consists of a field positive and negative meniscus convex to the object, the second from positive and negative meniscuses facing the concavity to the object, and a block of two positive Hbfx lenses, the second of which is double convex, and the entrance pupil of the tumor is aligned with its front focal plane the telecentric path of the rays in the space of the images 2 is provided. However, the specified lens has a small relative aperture (1: 8), which does not allow its use in conditions of reduced illumination, as well as weeks sufficient angular field of view (A8), which limits the application of the lens when shooting, elongated objects. In addition, the lens has significant negative distortion (-5%), which is unacceptable when using the lens in the measurement settings. The purpose of the invention is to increase the relative aperture and angular field of view while reducing the residual distortion of the lens. The goal is achieved by the fact that in a high-aperture wide-angle telecentric lens containing two groups of lenses separated by an aperture diaphragm, the first of which consists of positive and negative meniscus convex to the subject, the second is from the positive and negative meniscus facing concavity to the object and block of the two positive lenses, the second of which are double-convex, the menisci of the first group of lenses are made single, and a negative meniscus is introduced, reversed convexity to the object, the first meniscus is made positive, after the first meniscus of the second group of lenses a positive meniscus is introduced, convex to the object, behind a block of two positive lenses and a negative meniscus behind it, a positive meniscus is introduced that is convex to the object, the first meniscus is second the lens group is made positive, and the first lens of the block of two positive lenses is made in the form of a meniscus with a concavity facing the object. The drawing shows the optical layout of the lens. The lens consists of two groups of lenses 1 and 2. The first group of lenses contains positive 3 facing and 3 and negative 4 and 5 menisci facing the subject. The second group of lenses 2 consists of positive menisci 6 and 7, of which the first one faces concavity, and the second one convex to the object, the positive meniscus 8 facing the concavity to the object, and a two-convex lens 9, negative 10 and positive 11 menisci, of which the first facing concavity, and the second bulge to the subject. Aperture diaphragm 12 is located between meniscus 5 and 6. The proposed design of the object provides the following main technical characteristics: focal distance 45 mm; relative aperture 1: 2; Angular field of view 70 rear focal length 35.7 mm; working wavelength mm; the circle scattered across the entire field of view does not exceed 0.11 relative distortion within the entire field of view does not exceed 0.69%. The lens contains only single lenses, which allows its use when working with lasers. Thus, the described lens design allows to increase the relative aperture by 4 times, to increase the angular field of view by 22, while reducing the residual distortion by 7.2 times.

Claims (1)

LIGHT-WIDE WIDE-ANGLE TELECENTRIC LENS, containing two groups of lenses separated by an aperture diaphragm, the first of which consists of a positive and negative meniscus convex to the subject, the second of a positive and negative meniscus turned by yogutism to the object, and a block of two positive lenses the second of which is biconvex, characterized in that, in order to increase the relative aperture and angular field of view while reducing the distortion of the lens, the menisci of the first the lens groups are single and the negative meniscus convex to the object is inserted behind them, the first meniscus is positive and the meniscus of the second lens group is the positive meniscus convex to the object, behind the block of two positive lenses and the negative § a positive meniscus is introduced with the positive meniscus, convex to the pre-meta, with the first meniscus of the second If group of lenses made positive, and the first lens of a block of two positive lenses made in the form of m Niska ~ facing concavity to the object. ✓