SU950306A1 - Apparatus for tindalemetry of eye optical media - Google Patents

Description

(54) DEVICE FOR OPTICAL TINDALEMETRY

MIDDLE EYE

Claims (2)

The invention relates to medical technology, in particular to ophthalmic instruments for the diagnosis of eye diseases. A device is known for talindometry of the optical media of the eye, which contains a slit diaphragm, a projection lens, a system of mirrors, a photometric wedge and an eye microscope 1. However, the device is characterized by insufficient accuracy of tindalemetry due to the possible contamination of the system of mirrors and the impossibility of performing tindalemetry at different angles between the axes of the illuminator and a microscope. In addition, in the specified device, the compared control and test fields of view are not uniform in shape and area, which also reduces the accuracy of tindalemetry. The closest to the proposed technical essence and the achieved result is a device for tindalemetry of optical media of the eye, containing an illuminator with a slit diaphragm, a beam-splitting element and a projection lens and an ophthalmic microscope, interconnected by a light guide, containing light filters and a photometric wedge 2. However, the known device has insufficient accuracy of tindalemetry, which is due to the fact that the control beam of light passes through the photometric wedge wide negalog nnym beam, and in that the test and reference fields of view are different in size and shape. The rigid design of the fiber does not allow for tandemimetry at different angles between the optical axis of the illuminator and the microscope. The aim of the invention is to improve the accuracy of tindalemetry. This goal is achieved by the fact that in a device for tindalemetry of the optical media of the eye, consisting of an illuminator containing a slit aperture, a beam-splitting element and a projection lens, and a microscope, interconnected a light guide containing light filters and a photometric wedge, in the optical fiber in front of the photometric wedge there is a projection lens, symmetrically relative to the beam-splitting element, made in the form of a prism-cube, while in front of the projection lenses of the illuminator and the light guide are ident Meth aperture AV microscope eyepiece D have connected to the light guide prism and the opening-diaphragm. The drawing shows the optical layout of the device. The device consists of an illuminator housing 1, a light source 2, a condenser 3, a movable slit diaphragm 4, a beam-splitting prism 5, an aperture rectangular diaphragm 6, a projection lens 7. The illuminator housing 1 is connected to a light guide 8, in which there is a second aperture aperture 9 and a projection lens lens 10 mounted at the same distance from the center of the prism-cube 5 as the diaphragm 6 and the projection lens 7. The apertures 6 and 9 are identical in shape and area. In the light guide 8, a replaceable light filter 11 and a photometric wedge 12 are placed. The light guide 8 has a flexible section 13 connected to the ocular 14 of an eye microscope 15. A reflecting prism 17 connected to the flexible section 13 of the light guide 8 is installed in the ocular 14 in the focal plane of the eye lens 16 and a field diaphragm 18 with an orifice diameter equal to the height of the image of the measurement area. The diaphragm 18 is located on the optical axis of the ocular frame 14 in such a way that the output face of the prism 17 covers half of the orifice area of this diaphragm. The diaphragm 18 is configured to overturn. Device for tindalemetry optical media of the eye works as follows. The light from the light source 2 through the condenser 3 and the movable slit diaphragm 4 falls on the beam-splitting prism-cube 5, which separates the beam of light incident on it into the illumination and control beams. The illumination beam enters through the aperture diaphragm 6 and the projection lens 7 on the examined eye 19 in the form of a slit beam of light that forms an optical cut of the cornea and lens, which is examined using an eye microscope 15, the optical axis of which is set at an angle of 10-60 ° to the plane of the optical cut eyes 19. The control beam of light that enters the light guide 8 passes through the aperture diaphragm 9, the projection lens 10, the light filter 11, the photometric wedge 12 and through the flexible section 13 of the light guide 8 enters the output section Hb prism 17. When viewed through the ocular lens 16 is visible, this face is uniformly illuminated. It forms a control field in tindalemetry. With tyndalemetry, the device is moved on the coordinate table relative to the eye being examined 19 so that, with the aperture 18 folded back, the image of the examined section of the optical section is in contact with the control field. Thereafter, the diaphragm 18 is installed in the focal plane of the ophthalmic lens 16, limiting the control and test floor in the form of two identical semicircles. After that, with the help of replaceable filters 11 and a photometric wedge 12, the brightness of the control field is equalized with the brightness of the field under study. The magnitude of the total optical density of the filters 11 and the wedge 12 corresponds to the intensity of the glow of the slit slice. The proposed device improves the accuracy of tindalemetry, ensures stable operation and ease of operation. The invention of the device for tindalemetry of the optical media of the eye, consisting of an illuminator containing a slit diaphragm, a beam-splitting element and a projection lens, and a microscope interconnected by a light guide containing a light filter and a photometric wedge, characterized in that, in order to increase the accuracy of the tindalemetry, the light guide in front of the photometric m wedge is fitted with a projection lens symmetrically with respect to the beam splitting element, made in the shape of a prism cube, while injective E and illuminating the light guide arranged identical aperture and the microscope eyepiece to re establish connection with the prism light guide and the passage opening aperture. Sources of information taken into account in the examination 1. M. Blumenthal et al. New Tyndall photometer. - “Arch. Ophthalmologia, 1977, V. 95, Feb, p. 323-324. 2.Holdmann H. Senile changes and the vitreous. - “American Journal Ophthalmologia, 1964, .V. 57, 1, p. 1 - 13.