SU1115715A1 - Keratometer - Google Patents

Abstract

A KERATOMOMETER containing a lens, aperture, an annular light source mounted symmetrically to the optical axis of the lens, a measuring mark made in the form of a reflecting surface of rotation, whose axis coincides with the optical axis of the lens, and a recorder device that differs, if that, in order to determine the accuracy topography of the corneal surface with high asphericity by eliminating the influence of the spherical aberration of their surface, forming the surface of the measuring mark consists of parabolas, Which coincide with the light point of the source, and the axes are inclined to the optical axis of the lens, respectively, at angles of 10 - 90 °. (L

Description

The invention relates to medical technology, in particular to ophthalmic instruments for determining the topography of the cornea surface. The keratomer is known, which contains a measuring mark in the form of annular diffuse sections of a concave surface, a light source, a recording device i 1J. However, this keratophage has a shallow depth of field, which does not allow it to be used to determine the topography of the cornea with a high asphericity. The closest to the invention of the technical essence is a kerat meter comprising a lens, a diaphragm, an annular light source, installed symmetrically with the optical axis of the lens, a measuring mark made in the form of a reflective surface of rotation, the axis of which coincides with the optical axis of the lens, and a recording device | 2l . The disadvantage of this keratometer is the low accuracy of determining the topography of the surface of the corneas with high asphericity, which has significant spherical aberration. The purpose of the invention is to improve the accuracy of determining the topography of the corneal surface with high asphericity by eliminating the influence of the spherical aberration of their surface. The goal is achieved by the fact that in a keratometer containing a lens, a diaphragm, a ring light source installed symmetrically to the optical axis of the lens, a measuring mark made in the form of a reflective surface of rotation, the axis of which coincides with the optical axis of the lens, and a device for recording the surface of the measuring mark consists of parabolic segments whose foci coincide with the light point of the source, and the axes are inclined to the optical axis of the lens, respectively, at angles of 10 - 90 °. The drawing shows the scheme of keratometer. A keratometer contains a lens 1, in the focal plane of which a diaphragm 2 is mounted, which can be removed from the path of the rays. An annular light source 3 and a recording device 4 are mounted on the lens barrel. Measuring mark 5 is made in the form of a reflecting surface of rotation whose axis coincides with the optical axis of lens 1, and the forming surfaces of the measuring mark consist of parabolic segments whose foci coincide with light point 6 an annular source 3 of light, and the axes are inclined to the optical axis of the lens and respectively at an angle of 10 to 90 °. Keratometer works as follows. By moving and turning the instrument, longitudinal and angular targeting of the cornea is carried out, and the optical axis of the keratometer is also aligned with the axis or planes of symmetry of the cornea surface. At the same time, in the viewfinder of the recording device 4, the image of the light of the body of the ring source 3, formed by the reflecting surfaces of the measuring mark 5 and the measured cornea, is observed. When hovering, the diaphragm 2 is removed from the path of the rays. I At the end of the hover is made registration. At the same time, the diaphragm 2 is installed in the focal plane of lens 1. Light from an annular source 3 with a diverging beam falls on the reflecting surface of the measuring mark 5. From this surface, the incident beam is reflected as a series of beams, each beam consisting of parallel beams, since each of the parabolic segments forms an image of the axial point of the annular light source distant to infinity. Since the parabolic axes are inclined at different angles to the optical axis of the objective 1, the parallel beams also have a different inclination. Each of these parallel beams is reflected from the surface of the cornea in the form of a diverging beam, part of which enters the lens 1. Aperture 2 transmits only a narrow beam, the central beam of which is parallel to its optical axis before entering the lens 1. This narrow beam forms the image of the light of the body of the ring source 3 on the surface of the sensing element in the recording device 4.

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The invention makes it possible to increase the radios of their surface, which means that the determination of the topography will surely improve the quality and quality of the aspherical prögs by the productivity of contact selection and the elimination of the influence of spherical aber- lenses.

Claims (1)

A KERATOMETER containing a lens, a diaphragm, an annular light source mounted symmetrically to the optical axis of the lens, a measuring mark made in the form of a reflective surface of revolution, the axis of which coincides with the optical axis of the lens, and a recording device, characterized in that, for the purpose of improving the accuracy of determining the topography of the surface of the corneas with high asphericity by eliminating the influence of spherical aberration of their surface, the surface forming the measuring mark consists of segments of parabolas, the foci of which s coincide with the luminous source point and the axes are inclined to the optical axis of the lens, respectively, at angles of 10 - 90 °. ί