SU119651A1 - High frequency tonometer for measuring and recording intraocular pressure - Google Patents

Description

High-frequency tonometers are known for measuring and recording intraocular pressure, based on the principle of indentation, equipped with a head-mounted device for fixing the sensor on the eye in a strictly predetermined position, an inductive sensor, a measuring instrument and a recorder.

The proposed high frequency tonometer provides more accurate readings and eliminates errors associated with lateral movements of the plunger and voltage fluctuations in the network.

This is achieved by using a sensor in the tonometer that conforms to international standards, made in the form of two coils, i.e., their counter magnetic fields, in the center of which a non-ferromagnetic (brass) plunger is located. The plunger has a variable cross section and a disc, with which the inductance of the generator circuit is changed depending on the value of the intraocular pressure.

The drawing shows a diagram of the tonometer.

The high-frequency tonometer includes an inductive sensor /, a measuring device and a recorder. To fix the sensor / eye in a strictly predetermined position, the tonometer is equipped with a head-mounted device (not shown in the drawing).

In the upper part of the sensor housing / {there is a groove 2, into which is inserted a ferrite ring with two coils 3 having opposing magnetic fields. A non-ferromagnetic (brass) plunger 4 with a variable cross-section and a disk is moved in the center of the coils.

The sensor coil, together with the additional inductance coil and capacitance, form a resonant circuit included in the master high-frequency oscillator circuit, the oscillation frequency of which is in the order of 300 kHz.

No. 119651

At these frequencies, non-ferromagnetic electrically conductive materials exhibit a screen effect, which is that the currents induced in the metal create a counter magnetic field that weakens the main magnetic field. Thus, the axis and the plunger disk, located in the magnetic field of the coil, depending on their position, change the direction of the coil's power lines and, therefore, affect its inductance and the oscillation frequency of the master oscillator. The generator includes a discriminator 5, which is sensitive to changes in the frequency of the generator. The discriminator's load is a switch microammeter.

In the diagram, the lamp L serves as the master oscillator and at the same time the amplifier of the oscillations generated by the measuring circuit. The load of the lamp is the discriminator of relations. A double anode is used as a detector. The threading of the whole circuit is carried out |: it is driven by a kenotronic rectifier 6. To stabilize the supply voltage, gas stabilizers are used, and a barreter 7 in the heat circuit.

The device has two scales, which are switched by changing the resistance in the circuit of the measuring device. The first scale has limits of measurement when moving the plunger from 0 to 1000 W / s with a sensitivity of 20 microns per scale and scale. The second has limits from 0 to 550 microns with a sensitivity of 10 microns per scale division. This scale is designed to measure particularly subtle changes in intraocular pressure (ocular pulse, respiratory waves, etc.).

Subject invention

A high-frequency tonometer for measuring and recording intraocular pressure, based on the principle of indentation, equipped with a head-mounted device for fixing the sensor on the eye in a strictly predetermined position, an inductive sensor, a measuring instrument and a recorder, characterized in that, in order to obtain more accurate readings and eliminate errors, associated with lateral movements of the plunger and voltage fluctuations in the network, it uses a sensor that meets international standards, made in the form of two coils having river magnetic fields, in the center of which a non-ferromagnetic (brass) plunger is placed, having a variable cross-section and a disk, by means of which the inductance of the generator circuit is changed depending on the value of the intraocular pressure.