SU1560080A1 - Device contactless measuring of intraocular pressure - Google Patents

Abstract

The invention relates to medicine, more specifically to ophthalmology. The aim of the invention is to increase the efficiency of the device by contactlessly measuring the two components of polarized reflected light from the cornea of the eye. The goal is achieved by placing in the common end of the four-tail collector 1 of polarizer 2 and quarter-wave plates 3, 4, the use of which allows the output of the optical fibers 5 and 6 to receive respectively the interference of the sum and difference of the components of the reflected flow, the ratio of which is recorded in the processing unit 7. .P. f-ly, 1 ill.

Description

The invention relates to medicine, more specifically to ophthalmology.

The purpose of the invention is to increase the efficiency of the device due to non-contact measurement of two components of polarized reflected light from the cornea of the eye.

the presented diagram contains four-part1, in the end part of which there is a polarizer 2, quarter-wave plates 3, 4 that overlap the optical fibers 5, 6, respectively, to the other ends of which is connected a processing unit 7, consisting of a photodetector assembly 8 and a measuring and recording unit 9, and light guides 10, 11 are connected respectively to a light source 12 and a control lamp 13 with a lens 14 mounted at a focal length from the end of the light guide 11, and a collimating lens 15 is placed at a focal length from the common end of the four tovogo reservoir 1, between it and the cornea of the eye 16.

The device operates as follows.

The light from the source 12 enters the fiber 10, passing through the polarizer 2, is polarized and through the collimating lens 1.5 enters the cornea 16 of the eye. The reflected luminous flux containing two orthogonal components is passed sequentially through quarter-wave plates 3, 4, with orthogonal planes of polarization and polarizer 2, at the output of which the components of the light reflected from the cornea are allocated (moreover, in one of the channels - the sum between the components, and in the other - difference), which through the optical fibers 5 and 6 respectively receive the Hd node of the photodetectors 8, where the optical signals are converted into electrical signals and amplified. Further

1560080 4 in block 9, the ratio of these signals is taken, and a level proportional to the intraocular pressure is measured and recorded. To control the correct alignment of the flare of the cornea 16, the light from the control bulb 13 through the lens 14 and the light guide 11 creates a light spot marker at the common end of the collector 1. The IOP measurement process is standardized and does not depend on subjective factors.

Claims (1)

The claims 15 A device for non-contact measurement of intraocular pressure, containing a light source, a collimation lens, optically coupled to a 2Q optical fiber, and a processing unit connected to the optical fiber, comprising a photodetector and a measuring and recording unit, characterized in that, in order to increase the device’s 25 operating efficiency by non-contact measurement of the two components of the polarized reflected light from the cornea of the eye, it is equipped with a second light source, opedtically connected through the lens with the light guide, and light d is made by a four-tail collector, in the common end part of which there is a polarizer sequentially overlapping four light channels, and two quarter-wave plates with orthogonal polarization planes, each installed in its output channel of the first and second light guides, the other ends of which are connected to the processing unit, and a control lamp, a lens 45 and a light source are optically connected to the free ends of the third and fourth optical fibers, and the collimating lens is mounted on the focus sleep total distance from the end face of the fiber.