SU895404A1 - Device for determining intraocular pressure - Google Patents

Description

(54) DEVICE FOR DETERMINATION OF INTRA-EYE PRESSURE

I

The invention relates to ophthalmology, namely to devices for determining intraocular pressure.

A device for determining intraocular pressure from the height of a corneal flattening segment is known, which contains a lever system in the form of a box that carries an applanation platform and a tared weight holder on one shoulder, and a counterbalance system in the other arm that contains a counterweight with a weight equal to the weight of the applanation platform 1.

A disadvantage of this device is the inability to measure both the area of the corneal applanation segment and its area, as well as the difficulty of setting the zero point of reference when measuring the segment height, which negatively affects the accuracy of the intraocular pressure.

The closest to the invention by its technical essence is a device for determining intraocular pressure from the height of a corneal flattening segment, containing an electro-magnetic displacement sensor with a stem, on the end of which is strengthened an implantation site, registration system 2.

Such a device also has an insufficiently high accuracy of determining intraocular pressure due to the lack of simultaneous measurement of the area of applanation and the establishment of a zero point of reference.

The aim of the invention is to improve the accuracy of determining intraocular pressure by simultaneously measuring the applanation area and setting a zero point of reference.

Pel is achieved by the fact that in the proposed device for determining intraocular pressure by the height of the flattening segment containing an electromagnetic displacement sensor with a brush, at the end of which the applanation platform, the recording system, the applanation platform is made

30 internal reflection, and the displacement sensor is provided with an electromagnetic lock, mounted with the possibility of interaction with the brush.

FIG. 1 shows the described device; in fig. 2 - a circle with snuschivaya after cornea invlanation.

The device contains an electromagnetic displacement transducer 1 mounted on a tripod 2, a recording system consisting of a microammeter 3 and a camera 4.

The stirring sensor incorporates a housing 5, inside which a rod 6 passes. At the lower end of the latter, with the help of a plug 7, an applanation platform, made in the form of a full internal reflection prism 8, is fixed. The rod 5 has a stopper 9. The upper end of the float 6 is a ferro magnet 10 located in the central hole of the induction coil 11 mounted on the housing 5, and the electromagnetic clamp 12 is also attached to the latter, while the device is connected to the electrical device. appreciate it. Electromagnetic latch 12 e gap engages the rod 6.

Measurement of the intraocular pressure by the device is carried out at the altitudinal position of the test. The displacement transducer is driven by the electromagnetic latch 12 into the "zero condition on the scale of the microammeter 3, and with the help of the tripod 2 it is gently lowered onto the center of the cornea of the examined eye. At the moment of contact of the sensor with an eye on the edge of the prism 8, a black dot 13 appears. After that, the electromagnetic lock is disconnected, and the sensor annlants the cornea with its mass. In this way, the stem () of the sensor 1 c. MeI1, ets down, which leads to a change in the induction current recorded by the microammeter. 3. The flattening circle resulting from the verification of the cornea enclantation is clearly visible on the base of the prism 8 and is recorded by the camera 1.

The invention will improve the accuracy of determining the intraocular pressure due to the simultaneous measurement of the height of the flattening segment of the cornea and the anp zone, which will allow

more accurate calibration of the device and ensure control of possible errors in measuring intraocular pressure. In addition, setting the zero reference point when measuring the height of the flattening segment

the cornea will improve the accuracy of the segment height measurement, which also has a positive effect on the overall accuracy of the entire device.

Claims (2)

1. USSR author's certificate No 381337, cl. .4 61 В 3/16, 1971. 2. USSR author's certificate .NO 457466, cl. And 61 3/16, 1973 (prototype).