SU800942A1 - Reproduction objective lens - Google Patents

Description

The invention relates to optical / instrument engineering, in particular to optics, to reproductive symmetrical lenses and can be applied reprography for the development of up to ³ paper devices with slit copying on a drum coated with arsenic triselinide with a maximum photosensitivity in the wavelength range from λ = 400 nm up to 1 = 550 nm.

Known reproduction lenses a single increase in the symmetrical design [1].

However, they do not provide high quality ’images in the 15-wavelength range of 404-546 nm, with a relative aperture of 1: 5.6, a focal length of the lens of 300 mm and an object size of 2y = 320 mm.

Closest to the proposed 20 is the Lens, which contains six components made in the form of single lenses located symmetrically relative to the diaphragm, of which the first, second, fifth and sixth are positive **, and the third and fourth are negative [2].

The disadvantage of this lens is that it has a relative aperture of 1: 6.2 and gives a lower 30 image quality in the wavelength range of 404-546 nm.

The purpose of the invention is to increase the relative aperture and improve image quality.

This goal is achieved by the fact that in a lens containing a diaphragm and six components that are symmetrical about the diaphragm, of which the first, second, fifth and sixth are positive, and the third and fourth are negative, the first and sixth components are made in the form of single biconvex lenses, the second and the fifth component is made in the form of positive double-glued menisci facing concavity “to the diaphragm, while their focal lengths exceed the focal length of the entire lens by 1.4 times, the third and fourth components are They are in the form of negative menisci facing concavities to the diaphragm, while the air gaps between the second and third, and between the fourth and fifth components are equal to the thicknesses of the third and fourth components, and the air gaps between the third component and the diaphragm, and between the diaphragm and the fourth unit 800942 a component less than the focal length of the entire lens by 20.4 times.

The drawing shows a schematic diagram of the lens.

The symmetrical type lens consists of six components 1-6, symmetrical with respect to the aperture 7. Component 1 Consists of a positive biconvex single lens, facing a surface with a steeper convex radius to the subject. Cofactor 6 is symmetrical to component 1 with respect to ’** relative to Diaphragm 7, components 1 and 6 are the same. Components 2 and 5 are made in the form of positive menisci facing concavity to the diaphragm 7 and glued together from the negative 8 15 and positive 9 menisci each. Components 3 and 4 are negative menisci facing concavity to the diaphragm 7.

The calculated reproduction Objective has a focal length of 306 mm, a relative aperture of 1: 5.6, a magnification of 1 *, and an object size of 2y = 320 mm.

The design of the proposed lens provides a high relative jj aperture of the lens (0 / £ = 1: 5.6), work in the spectral region with the highest sensitivity of the receiver from De404 nm to λ = 546 nm) with high image quality (N = 8 mm , at K = 0.5), which allows to reduce the power of sources (the relative aperture is increased) illuminating the subject, eliminate the ventilation system in the documenting apparatus, switch to more durable luminescent ^ 5 centimeters, since the spectral regions of the fluorescent lamps and the receiver match.

Claims (1)

Claim A reproduction lens containing a diaphragm and six components that are symmetrical with respect to the diaphragm, of which the first, second, fifth and sixth are positive, and the third and fourth are negative, with the aim of increasing the relative aperture and improve image quality, the first and sixth components are made in the form of single biconvex lenses, the second and fifth components are made in the form of positive double-glued menisci facing concavity to the diaphragm, while their focal lengths exceed f the bite distance of the entire lens is 1.4 times, the third 'and the fourth components are made in the form of negative menisci facing concavities to the diaphragm with air gaps between the second and third components, and between the fourth and fifth components equal to the thicknesses of the third and fourth components, and the air the gaps between the third component and the diaphragm, and between the diaphragm and the fourth component are less than the focal length of the entire lens by 20.4 times.