SU982649A1 - Device for measuring intraocular pressure - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF INTRA-EYE

one

This invention relates to medical technology, in particular to diagnostic devices for ophthalmology.

A device for measuring intraocular pressure is known, which comprises a low-frequency vibrating sensor with a sensitive element, an amplifier and a recording device 1.

However, the known device does not provide the necessary accuracy of intraocular pressure measurements.

The closest in technical essence to the proposed invention is a device for measuring intraocular pressure, comprising a contact plate installed in the sleeve, separated from the cornea by a dielectric layer and electrically connected with the source of oscillations 2.

However, when using a known device, it is possible to apply electrical injuries to a patient, and the device does not provide the necessary measurement accuracy, which reduces the reliability of the diagnostic results.

The aim of the invention is to increase electrical safety and measurement accuracy.

PRESSURE

This goal is achieved by the fact that in a device for measuring intraocular pressure containing a contact plate installed in a sleeve, separated from the cornea by a dielectric layer and electrically

5 is connected to the source of oscillations, the contact plate is made in the form of a piezoquartz disk resonator with metal plates, and the center of the contact plate is connected to the center of the surface of the dielectric layer through a pin

10 in the form of a quartz membrane, rigidly fixed with edges in a sleeve, the inner surface of which is provided with a thread and a screw for adjusting and securing the contact plate.

 The disk resonator is made in the form of a hemispherical body.

The pin is made in the form of a metal plate, deposited on the inner surface of the membrane and having a diameter

20 at least ten times smaller than the diameter of the plates of the resonator.

The screw is made in the form of a ring, provided with a groove in which the oscillation source is fixed.

The drawing shows a device for measuring intraocular pressure, a general view.

A device for measuring intraocular pressure contains a contact plate mounted in the sleeve 1, made in the form of a disk resonator 2 made of piezo quartz with metal plates 3 and 4, separated from the cornea by a dielectric layer made in the form of a quartz membrane 5 and electrically connected to the source of 6 vibrations the center of the contact plate through the pin 7 is connected with the center of the surface of the membrane 5, rigidly fixed with edges in the sleeve 1, the inner surface is provided with a thread 8 and a screw 9 for adjustment and fastening a disk resonator 2, made in the form of a hemispherical body, the pin 7 being made in the form of a metal plate deposited on the inner surface of the membrane 5 and having a diameter of at least ten times the diameter of the plates of the resonator 2, and screw 9 in the form of A collar equipped with a groove A, in which the oscillator of oscillation source 6 is electrically connected to power supply 10 and frequency meter 1-1 to record the measurement results.

The device for measuring intraocular pressure operates as follows.

The device is applied by the membrane 5 on the cornea, as a result of which, under the action of the weight of the device (on the order of 5 g), an eye-membrane contact area appears. The area of this area depends on the intraocular pressure and balances the weight of the sensor. Depending on the contact area, the mechanical stresses in a thin quartz membrane 5 with a thickness of tenths of a millimeter, having perfect elasticity and small hysteresis, are different and the pressure is converted into a point force transmitted through pin 7 of the resonator 2. When summing up energy from the source 10 power supply to the source of 6 oscillations, the latter excites resonant micro-oscillations of shear in thickness in the area under the plates 3 and 4 of the resonator 2. Under the action of the force transmitted through the stud 7, the resonator 2 experiences a hard fastening the tension force on the screw 9, and its resonant frequency varies linearly in proportion to this force. The high-frequency component of the signal corresponding to the frequency of self-oscillations in the system, the source of 6 oscillations - the resonator 2 is measured by a frequency meter 11 and allows you to directly judge the Ophthalmic.

To ensure high Q of the resonator 2, the pin 7 has a diameter ten times smaller than the plate 3, and the resonator 2 is made in the form of a hemispherical body, which ensures its high acoustic separation relative to the screw 9 and eliminates

distorted amplitude modulation with self-sensitive deviation of the measured resonant frequency. In addition, the hemispherical shape of the resonator 2 makes it possible to reduce its size and, consequently, the diameter of the sleeve 1 to the pupil diameter, which is necessary to ensure the technique of fixing the device above the eyeblock during the examination. Adjustment of the initial force ("device zero") is carried out by turning

jj of screw 9, which changes the degree of power compensation of the system "resonator 2 - pin 7 - membrane 5 and, therefore, the initial frequency reading on the frequency meter 11.

The proposed device provides the electrical safety of the patient, since

excitation of the resonator from the power source is isolated from the patient’s body, while all factors, except for Ophthalmic, can change the parameters of the high-frequency signal measured, eliminating the accuracy of recording intraocular pressure using a digital reading at the required resolution and reducing the time Ophthalmic tonus scars, which improves the differentiation of diagnostics and increases throughput during mass examinations.

Claims (4)

1. A device for measuring intraocular pressure, comprising a contact plate installed in a sleeve, separated from the cornea by a dielectric layer and electrically connected to a source of vibrations, characterized in that, in order to improve electrical safety and accuracy of measurement, the contact plate is designed as a disk resonator from a piezoelectric quartz with metal plates, and the center of the contact plate is connected with a pin to the center of the surface of the dielectric layer, made in the form of a membrane made of quartz, rigidly fixed Q .mi ennoy edges in the sleeve, the inner surface of which is threaded and the screw for adjustment and securement of the contact plate. 2. The device according to claim 1, characterized in that the disk resonator is made in the form of a hemispherical body. five 3. The device according to claim 1, characterized in that the pin is made in the form of a metal lining deposited on the inner surface of the membrane and having a diameter of at least ten times smaller than the diameter of the plates of the resonator. 0 4. A device according to claim 1, characterized in that the screw is made in the form of a ring, provided with a groove in which the oscillation source is fixed. Sources of information taken into account in the examination 1. USSR author's certificate number 133771, cl. And 61 3/16. 1960 2. USSR author's certificate number 157455, cl. A 61 B 3/16, 1963.