SU1760501A1 - Fast reproduction lens - Google Patents

Abstract

Usage: in optical instrument making, television. Summary of the invention: the lens contains five components, the first of which is a positive meniscus, the second is a double-glued meniscus, both of which have concavity facing the image, the third component is a double concave lens behind which a diffraction lens is installed, the fourth component is a positive meniscus facing concave to the image, the fifth is a two-glued lens, consisting of a two-convex lens and a negative meniscus. 1 il.

Description

The invention relates to the field of optical instrumentation, and more specifically to lenses used for inputting printing and graphic information in computers, as well as in communications equipment, such as a telefax type, the receiver of the image can be either television tubes or CCD arrays .

Known reproduction lens with eight single components, the diaphragm is located in the air gap after the fourth component.

The disadvantages of the known lens include a small linear field with considerable dimensions of the device, as well as uneven illumination and image quality from the center of the frame to its edges.

The closest in technical characteristics and essence to this image is a high-aperture reproduction lens containing

eight single components, the first, the seventh and the eighth of which are double convex, the second is a positive meniscus facing concavity to the image, the third and fifth to double convex lenses, the fourth and sixth are negative menisci facing the concavity to the aperture diaphragm which is located after fourth component

The disadvantages of the prototype include a small linear field in the space of objects with the overall dimensions of the lens.

The aim of the invention is to increase the linear field in the space of objects while reducing the size of the lens.

The goal is achieved by the fact that in a high-aperture reproduction lens containing five components, the first of which is a positive lens, the second is a positive meniscus, the third is a double-bent lens, behind which the aperture diaphragm is located, the fourth and fifth are positive lenses the first component is made in the form of a meniscus facing the image to the image, the second is a double-glued meniscus, the fourth is a meniscus, and the fifth component is made in the form of a two-folding two-convex lens.

The implementation of the first component and the second lens of the second component in the form of meniscuses facing concavity to the image allows the spherical aberration to be corrected both for a point on the axis and in wide inclined beams, which allows increasing the linear field in the space of objects, moreover, due to such the component can be reduced to reduce the size of the lens. The second component is made glued together, which leads to a reduction in lens dimensions and due to the successful selection of their shape in combination with the ratio of design parameters, it allows to correct the aberration along the field, which in turn leads to the possibility of increasing the linear sex in the space of objects. Performing the fourth component in the form of a double-concave lens makes it possible to correct higher-order aberrations in wide inclined beams, thereby creating an opportunity to increase the linear field in the space of objects while reducing the size of the lens and maintaining the high quality of the aberration correction. The fourth component, which is made in the form of a positive meniscus facing the image and installed in close proximity to the aperture diaphragm, ensures, while achieving the objective of the invention, the image quality by affecting the highest order aberration, the fifth component, made in the form of a dvuhsklennaya two-convex lens, in combination with their location and the ratio of design parameters allows you to correct aberrations in wide oblique beams, including aberrations in saga Flax cross section, as well as chromatic aberrations, including aschigmo-chromatism and chromatic coma in wide oblique beams, which allows to increase the linear field in the space of objects while reducing the size of the lens without disturbing the high quality of the aberration correction in the lens.

The drawing shows the optical layout of the lens.

The lens contains successively located along the beam a positive meniscus 1, glued positive 2 and negative 3 menisci, facing

concavity to the image, double-concave lens 4, aperture diaphragm, positive meniscus 5 facing the concavity to the image, followed by a double convex lens glued from the two convex lens 6, negative meniscus 7 facing the concavity to the object. The light flux from an object located at a finite distance passes successively through lenses 1-7 and forms an image on the photosensitive area of the image receiver, for example, a CCD image sensor.

An example of a specific implementation of the invention is an objective having a focal distance of 22.2 mm, a linear field of 208 mm, a relative aperture of 1: 2.5, a spectral range of operation of 410-700 nm, the maximum value of the light distribution function at the edge of the field

66.7%, the maximum distortion across the field is 0.95%, the maximum value of the circle scattered across the image field is not more than 0.03 mm, with the longitudinal dimensions of the lens not more than 17.3 mm.

The technical advantages of this lens are: quadrupling the linear field in the space of objects; lens size reduction by 3.5 times.

Additional technical advantages are: a 2-fold reduction in the ratio; Improving the correction of aberrations by the criterion of the spot scattered by 2.5 times.

Claims (1)

Invention Formula A fast reproduction lens containing five components, the first of which are a positive lens, the second is a positive meniscus facing the concavity of the image, the third is a double-curved lens, behind which an aperture diaphragm is installed, the fourth is a positive lens and the fifth is a double-convex lens, in order to increase the linear field of view in the space of objects while reducing the size of the lens, the first the component is made in the form of a meniscus facing the concavity to the object; the meniscus of the second component is made two-glued from the positive and negative menisci; the lens of the fourth component is made in the form of a meniscus turned to the concavity the image, and the fifth component of the co-convex lens and the negative men- tion, is made of a two-segment of a duplex. : 4 567