SU1560192A1 - Method of contactless measuring of intraocular pressure - Google Patents

Abstract

The invention relates to medicine, more specifically to ophthalmology. The purpose of the invention is to improve the measurement accuracy - by extracting a phase-shifting system containing quarter-wave plates 4, 5 and polarizer-analyzer 2, orthogonal components of the light flux and converting their photoelectric converters 6, 7 into electrical signals, the ratio of which is recorded by the recorder 8. 1 hp f-ly, 1 ill.

Description

The invention relates to medicine, more specifically to ophthalmology.

The aim of the invention is to improve the accuracy of measurement.

The drawing shows an optical scheme for implementing the method.

The optical scheme consists of a light source 1, a polarizer-analyzer 2, an eye 3, quarter-wave plates 4 and 5 with orthogonal planes of polarization, photoelectric converters 6 and 7, a recorder 8.

The method is carried out according to the optical scheme as follows.

The flow of polarized light from the light source 1 is directed to the cornea 3 through the polarizer-analyzer 2. The light flux reflected from the cornea contains, in accordance with the phenomenon of photoelasticity, two components with orthogonal planes of polarization, one of which coincides with the original one. To separate these components, the reflected light flux is passed through two quarter-wave plates 4 and 5 and the polarizer-analyzer tor 2. In each optical channel on the polarizer-analyzer 2, the two components of the reflected light flux interfere, and in one of them 5 the sum of the projections of two components, and in another, the difference, which is converted by photoelectric converters 6 and 7 into electrical signals, the ratio of which is recorded by recorder 8.

Claims (1)

Claim A method for non-contact measurement of intraocular pressure by irradiating 15 eyes with polarized light, characterized in that, in order to improve the measurement accuracy, the light flux reflected from the eye is passed through a phase-shifting system, two orthogonal components of the light flux are extracted, each of these components is converted by photoelectric converters into electrical signals, the ratio of which is fixed by electronic equipment.