SU1068706A1 - Photoceratometer - Google Patents

Abstract

A PHOTOKERATOMETER containing a reflex camera with a lens, a diaphragm and a video detector, a pulsed light source and a measuring mark, characterized in that, in order to expand the area of the cornea examination and determine the direction of the axis of its surface symmetry, the mark is made on the concave surface of the hemisphere with 7 axes, not exceeding the depth of field of the lens, in the form of closed, specularly reflecting rings, the angular distance between which from the point and lens in order of magnitude is. g 2.5 & and in the immediate vicinity of the pulsed light source an additional constant radiation source is placed.

Description

The invention relates to instrumentation, in particular to devices for measuring the size and shape of the surface of the cornea, and can be used in ophthalmology, mainly in contact correction of vision.

A photokeratometer is known, which includes measuring marks in the form of annular slits, which are illuminated by a light source located in the SI instrument case.

The disadvantage of this device is the limited scope of its application, since the absence of a diaphragm in the focal plane of the lens reduces the depth of the sharply depicted object space. This prevents the size and shape of irregular, highly elongated corneas with this instrument. Moreover, the small field of view of the instrument's viewfinder does not allow a preliminary visual assessment of the shape of the cornea by the image of ring marks reflected from its surface. For the same reason, it is impossible to choose the desired rotation of the photographed eye with respect to the optical axis of the device in order to align the latter with the axis of symmetry of the cornea surface. This alignment is necessary for the subsequent calculation of the size and shape of the cornea surface from the resulting Photographs.

Photokeratometers are also known, which contain a system of reflective measuring marks in the form of chairs 21 and HZ.

The closest to the invention is a keratometer, containing a reflex camera with a lens, aperture and viewfinder, the field of view of which is not less than the field of view of camera G4.

The known photokeratometer has a restrictive corneal examination area and does not allow to determine the position of the top of its surface and the direction of its axis of symmetry.

The aim of the invention is to expand the corneal examination area to determine the position of the top of its surface and the direction of its axis of symmetry.

This goal is achieved by the fact that the measuring mark is made on the concave surface of the hemisphere with a center located on the optical axis within, not exceeding the depth of field of the lens, in the form of closed specularly reflecting rings, the angular distance between which is from the objective point of the lens in order of magnitude is 2.5, l in close proximity to. pulsed light source placed an additional source of constant radiation.

FIG. 1 shows a photokeratometer diagram; in fig. 2 - brand, plan view.

The photokeratometer contains a system of reflectance measuring rings 1, evenly spaced around an angle on a concave spherical surface. A lens 2 is mounted coaxially with this surface, in the focal plane of which a diaphragm 3 is located, which can be brought out of the path of the rays. The tube 4 is equipped with a ring-shaped flashlight 5 and an annular diffusing source of light 6, for example a fluorescent lamp, and a camera 7 is also attached.

Photokeratometer works as follows.

By moving and turning the device, the device performs longitudinal and angular pointing to the surface of the cornea. Then, by changing the angular fixation of the visual axis of the photographed eye, a sharp, central and symmetrical image is measured. Mark the mark rings, the angular distance between which is from the center of the sphere in the order of magnitude is 2.5 °, in the viewfinder of the camera 7. Thus the combination of the optical axis of the photokeratometer with the axis of symmetry of the cornea surface. In the process of pointing, mark 1 is illuminated by an additional source of light 6. At the end of the hovering, the photographs are taken. At the same time, the light from the annular flash lamp 5 illuminates the measuring reflecting rings of brand 1. Their image, formed by the cornea surface, is projected by lens 2 onto the film in camera 7. At the time of the shooting, aperture 3 is inserted into the focal plane of lens 2 to increase the depth of field, which allows It does not take high-resolution photographs, including when photographing irregular, much of the corneas.

The practical effectiveness of the invention is to improve the accuracy of determining the size and shape of corneas of complex shape, as well as the efficiency of such a determination, which is essential for solving the problem of mass provision of the population with contact lenses for vision recovery.

In addition, this photokeratometer can be used as a keratoscope for preliminary visual assessment of the shape of the cornea when establishing a diagnosis.

Claims (1)

A PHOTOKERATOMETER containing a mirror camera with an aperture lens and a different brand source, from which, in order to study the direction of the axis of symmetry of its surface, the measuring mark is made on the concave surface of a hemisphere with a center located on the optical axis within a range not exceeding the depth of field lens, in the form of closed, mirror-reflecting rings, the angular distance between which from the object point of the lens is 2.5 ° in order of magnitude, and in the immediate vicinity of the pulsed light source, p zmeschen additional DC radiation. <e