SU1428343A1 - Applanation tonometer - Google Patents

Description

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The invention relates to medical devices used in ophthalmology for measuring intraocular pressure and hydrodynamic coefficients.

The purpose of the invention is to improve the accuracy and reliability of measurement by improving the centering of the sensor.

The drawing shows the proposed tonometer.

The tonometer consists of a housing 1, the upper 2 and the lower 3 covers. Inside the housing there is a displacement transducer in the upper part, consisting of two armored ferrite cores with coils 4 and 5. In the gap between these cores: there is a ferrite disk 6, connected to the plunger 7, fixed in the housing with the help of plane-parked springs 8 and 9. The plunger ends with a receiving disk 10 having a diameter of 3.00 mm. Coaxially with the plunger-I poM and the disk there is a movable sleeve 11 having a flat base in contact with the cornea of the eye. The inner diameter of this number (the finger is equal to 3.06 mm, and the external diameter is 7 mm, which corresponds to the diameter of the applanation circle at loading with a weight of 10 g at an intraocular pressure of 10 mm Hg, i.e. at the lower limit of the measuring range. This sleeve, through the pusher 12, acts on the contact group 13, closes it when it aligns the plane of the base of the sleeve 11 with the plane of the disk 10. The upper plane of the sleeve 11 abuts against the plane of the lower housing cover.

Concentric with the sleeve 11 is a second movable sleeve 14 having a concave base in the form of a fragment of a sphere in contact with the cornea of an eye with a sphere radius of 12 mm. 1. Installing the sensor on the patient's eye and keeping it in the working position is carried out using a handle 16 connected to the top cover of the sensor housing using

springs 17.

The measurement of intraocular pressure and the conduct of tonographic studies with a tonometer are carried out as follows.

With the aid of the handle 16, the sensor with the base of the sleeve 14 is installed on the cornea of the patient's eye and smoothly lowers. Smooth loading due to the sensor's own weight, equal to 10 g, is achieved by connecting the handle 16 to the top cover 2 of the sensor housing 1 through an elastic element — a spring 17. With a smooth loading, a consistent increase in the diameter of the applanation circle and a smooth lifting of the sleeve 11 occurs. The displacement of the plunger 7 under the action of loading leads to the appearance of a signal at the output of the secondary displacement transducer due to the imbalance of the parameters of coils 4 and 5 due to the displacement of the ferrite disc 6. With an applanation circle of 3.00 mm, t. . the diameter of the disk 10, the base plane of the movable sleeve 11 is aligned with the base plane of the disk 10. In this case, the pusher 2 closes the contact group 13. When the contacts 13 are closed, a signal is generated to measure the displacement of the disk 6 relative to the coils 4 and 5 and start recording the intraocular size pressure on the recorder (or digital printer). The parallel springs 8 and 9 are chosen so that the loading of the plunger in the range of 0- 10 g corresponds to the linearly varying displacement of the plunger 7 and the disk 6 relative to the coils 4 and 5.

Thus, using a displacement transducer, the force acting on the plunger in the vertical direction is measured. This effort (in grams),. multiplied by ten gives the value of intraocular pressure. With a circle of applanation equal to 3.06 mm, i.e. at the time of closure of the contact group 13, an intraocular pressure close to true is measured, i.e. with an accuracy consistent with the Goldman method. In the secondary transducer, upon pinning of the contacts 13, a signal is generated for storing the electrical quantity assigned to the displacement of the plunger 7 and the disk 6 relative to the rollers 4 and 5. This value is displayed in digital form or using a switch instrument. At the same time, the parameters of the secondary converter circuit are chosen so that the digital value corresponds to intraocular 3142

mu pressure in mm Hg In the case of a dial gauge, its scale is graduated at M14 Hg. If necessary, perform topographic studies, the handle 16 is lowered until it comes out of contact with an elastic element (spring 17). The weight of the sensor (10 g) fully loads the eye through the plunger and the movable sleeve 11, the upper base of which in this case rests against the plane of the bottom cover 3 of the housing 1. In this mode, the intraocular pressure recorded

through the displacement of the plunger 7 and the disk b relative to the coils 4 and 5. The recording lasts for two or four minutes and then using special tables calculates the value of the coefficient of ease of outflow of intraocular fluid, which is crucial for evaluating the hydrodynamics of the eye. The invention allows to provide high accuracy of measurement, which corresponds to the Goldman method, to exclude from the measurement process an inert gas (freon), to ensure centering of the sensor on the patient's eye.

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Claims (1)

APPLANATION TONOMETER, comprising a receiving disk mounted on a plunger connected to a displacement transducer and secured by plane-parallel springs in a housing equipped with a handle, as well as a secondary transducer and a recorder, characterized in that, for the purpose of increasing. the accuracy and reliability of measurement due to improved centering of the sensor, the housing is connected to the handle through an elastic element inserted into the tonometer, which is also equipped with a contact group and two bushes mounted coaxially to the receiving disk with the possibility of mutual movement, while the inner sleeve has a flat working base, and the opposite base is provided with a pusher interacting with the contact element, and g the working base of the outer sleeve is made concave in the form of a fragment of a sphere. SU „„ 1428343>