SU1115005A1 - Unity power magnification lens - Google Patents

Abstract

SINGLE-LUMINATING LENS, containing two symmetric with respect to the aperture diaphragm block, each of which contains the first and second positive components ri and the third negative component, characterized in that, in order to increase the numerical aperture, the first component is glued together from positive and negative meniscuses with convexity facing the aperture diaphragm, the second component is glued together from a negative meniscus with a concavity facing the aperture diaphragm, and a two-fold lens lens, and the third component is identified as a single negative meniscus, convexity facing the aperture diaphragm.

Description

The invention contributes to the field of optical instrumentation, namely, lenses, and can be used in instrumentation, such as angular and linear displacement transducers, where high-objective lenses are required to study objects with a frequency of 200 lines / millimeter and limited dimensions of the device. image quality, with a numerical aperture of at least 0.16-0.20. A lens of a symmetrical design is known, the contents of which are two symmetric with respect to the aperture diaphragm of a block of three components, the first of which is a meniscus with a convexity facing the diaphragm, the second positive component l. The disadvantage of this lens is a small numerical aperture. The closest in technical essence to the proposed one is a single magnification lens containing two symmetrical relatively aperture diaphragm blbka, each of which contains the first and second positive components and the third negative component 2, The disadvantages of the known lens are a low numerical aperture (0.053) and significant coma and image curvature values. The purpose of the invention. is an increase in the numerical aperture, as well as correction of coma and image curvature. The goal is achieved by the fact that in a single magnification lens containing two symmetric relatively aperture diaphragms of the block, each of which contains the first and second positive components and the third negative component, the first component is glued together from the positive and negative meniscus, convexity of the inverted caperture diaphragm, the second the component is glued together from a negative meniscus with a concavity facing the aperture diaphragm, and a two-fold lens, and the third component is designed as a single segment negative-meniscus bulge facing the aperture diaphragm. The drawing shows the optical layout of a single magnification lens. The lens contains a concave lens T, glued to a concave lens 2, and lenses -1 and 2 form the first component 3 a convex-concave lens 4 glued to a two-convex lens 5, and lenses 4 and 5 form the second component 6, the negative meniscus 7 and miogonal prism 8, located in the plane of the aperture stop. Positions 9-15 designate the lenses and components of the second unit, which are symmetrical to the first relative to the aperture tsiafra. The lens has a high numerical aperture of 0.16, and with a distance from subject to image of 46 mm it has a linear field of view of 3 mm, which is 0.001 mm and the curvature of the image is 0.02 mm. The resolution of the lens is 0.004 mm, which allows its use in high-precision angular and linear displacement transducers.

Claims (1)

A ONE-SCALE LENS, containing two blocks symmetrical with respect to the aperture diaphragm, each of which contains the first and second positive components and the third negative component, characterized in that, in order to increase the numerical aperture, the first component is glued from the positive and negative menisci convex towards aperture diaphragm, the second component is glued from the negative meniscus, concavity facing the aperture diaphragm, and a biconvex lens, and the third component is made in The idea of a single negative meniscus bulge facing the aperture diaphragm. "Ω s *