SU1018619A1 - Applanation tonometer - Google Patents

Abstract

1. APPLANATION TONOMETER, built in the form of a conical light guide with an appan-ayern pshshadka scale, indicated by the fact that, in order to increase the accuracy of tomometry, applanioiin, the platform is made on a larger base of the light guide. The lateral surface of the latter is matted, with the scale applied to the side surface, and the fibers forming the optical fiber are cylindrical and parallel to the optical axis of the tonometer. 2. The meter according to claim 1, so that, in order to improve the accuracy of measuring the lowered intraocular pressure, the smaller diameter of the light guide is equal to the diameter of the circle Eggi, corresponding to the normal intraocular pressure. 3. The tonometer according to claim 1, in accordance with claim 1, so that, in order to improve the accuracy of the measurement of the increased intrahumi. ocular pressure, the larger diameter of the fiber is equal to the diameter of the circle of flattening, corresponding to but |% to one real (L intraocular pressure. 00 Od with.

Description

The invention relates to medical technology, namely to ophthalmology, and it is possible to use the intraocular pressure measurement. The Maklakov Sotson tonometer is known {a sinister cynarial corpus with hemispherical endings on Konets, covered with glapco polished milky plates. Determination of intraocular pressure using such a tonometer produced by the diameter of prints with a special ruler tl. The disadvantage of the Maklakov tonometer is the blurring of the edges of the imprint of the flattening circle, which negatively reflects on the accuracy of measurement. The closest in technical essence and achievable positive effect to the proposed is the applana syunny tonometer, made in the form of a conical light guide with applanation platform and scale. The disadvantage of the known tonometer is that it does not provide sufficient accuracy, since it can increase to be obtained with its use, more than two leads to an increase in the size of the tonometer and its mass. The aim of the invention is to improve the accuracy of tonometry. The goal is achieved by the fact that in an applanation tonometer, made in the form of a conical fiber with an applanation platform and scale, the applanation platform is made on the larger base of the fiber, the lateral surface of the latter is matted, n {hey this scale is applied on the lateral surface, and cylindrical and parallel to the optical axis of the tonometer. In addition, in order to improve the measurement accuracy of the reduced intraocular pressure, the smaller diameter of the fiber is equal to the diameter of the flattening circle, which corresponds to the normal intraocular pressure. With an increase in the accuracy of the measurement of the pressure of intraocular pressure, the larger diameter of the fiber is equal to the diameter of the flattening circle, respectively. normal intraocular pressure. FIG. 1 shows the tonometer, general view; in fig. 2 — Aid A in FIG. one; Fig. 3 is a view of the tonometer for measuring the well pressure; in fig. 4 is a view of a tonometer for measuring elevated pressure. The tonometer is a conical optical fiber of cylindrical fibers 1 with an applanation platform 2, and the applanation platform is made on a larger base of the fiber. The lateral surface 3 of the fiber is matted and a scale of 4 is applied on it. The tonometer is provided with a cylindrical neck 5, with a cis-like element 6 located on the smaller base of the fiber that serves to hold the tonometer by the holder. For greater contrast, the flattening circle on the matte side surface, the light-conducting cylindrical fibers parallel to the optical axis of the tonometer, are made with a shell of optical material with a lower refractive index than that of the core. For a more accurate measurement of the reduced pressure, the smaller diameter is 7 light. The product is equal to the diameter of the flattening circle corresponding to the normal intraocular pressure. For a more accurate measurement of excess pressure, a larger diameter 8 of the fiber is equal to the diameter of the flattening circle corresponding to the normal intraocular pressure. To measure intraocular pressure, a tonometer with a holder (not shown) is grabbed by the neck 5 and the appliance is placed on the eyeblock 9. The rays of light, reflected from the surface of the eyeblock, fall on the peripheral part of the applanation site 2, not covered by flattening , and along fibers I fall onto the opaque side surface 3. As a result, a part of the cone is darkened, and the diameter of the flattening circle corresponding to the intraocular opening is determined on a scale of 4. The performance of the side surface Matt's meter eliminates the appearance of total internal reflection at the outer ends of the light-conducting fibers and eliminates interference in the form of glare, which Moryt causes on the conical side surface of light sources in the room. The tonometer allows five times the comparison with the known (at a taper angle of 6) to improve the accuracy of measuring the intra-eye pressure.

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Claims (3)

1. APPLANATION TONOMETER, made in the form of a conical fiber with an applanation pad and scale, so that in order to increase the accuracy of tonometry, the applanation pad is made on a larger base of the fiber, the lateral surface of the latter is matted while the scale is applied on the side surface, and the fibers forming the fiber are cylindrical and parallel to the optical axis of the tonometer. 2. Totsometer on π. 1, characterized in that, in order to improve the accuracy of measuring lowered intraocular pressure, a smaller diameter of light. tovoda is equal to the diameter of the flattening circle corresponding to normal intraocular pressure. 3. A tonometer according to n, characterized in that, in order to increase the accuracy of measuring increased intraocular pressure, a larger diameter of the optical fiber is equal to the diameter of the flattening circle corresponding to normal intraocular pressure. AND Φι / ίΐ