RU72835U1 - EYE TONOMETER INDICATOR - Google Patents

Abstract

The proposed solution relates to medicine, in particular to equipment for measuring the intraocular pressure in a patient directly through the eyelid without the use of anesthetics.

The technical task of the proposed solution is to eliminate these drawbacks, improve the accuracy of measurement and simplify the design of devices for measuring intraocular pressure directly through the skin.

The specified technical problem is achieved in that the sensor of the angular deviation of the falling body is equipped with a unit for aligning the longitudinal axis of the body with the axis of incidence of the body, connected to the control unit and the clamp of the falling body, and the supporting surface on the rod is mounted to rotate in a horizontal plane and is made U-shaped with pointed ends.

Using the proposed technical solution will improve the quality of measurements, reduce the time of measurements, and the device itself will be more compact and convenient during operation compared to known devices of a similar purpose.

Description

The proposed technical solution relates to medicine, in particular to devices for measuring intraocular pressure in a patient directly through the eyelid without the use of anesthetics.

A device is known for measuring intraocular pressure in a patient in the form of a tonometer indicator mounted on the eyelid vertically with respect to the cornea of the eye and is influenced by a falling ball weighing 0.3-0.7 grams from a height of 120-150 mm. The tonometer case is made in the form of a transparent glass tube with a freely moving ball placed inside it, in the upper part of the case there is a sleeve that prevents the ball from falling out, and a graduated scale with risks is applied to the tube, dividing into three parts, by which the pressure is determined. The process of measuring pressure is carried out at least three times and is determined by the average value of the indicators on the scale (see patent for the invention of the Russian Federation No. 2007951 according to class A61B 3/16 for 1994)

The disadvantage of this type of indicators is the low accuracy of pressure measurement due to the inability to accurately install the body itself vertically relative to the cornea of the eye, which leads to a distortion of the measurement results.

Also known is a measuring tonometer for determining pressure through the skin containing a movable sleeve mounted in the housing with guides and a support, the contact surface of which is located at a distance of 7-10 mm from the axis of free fall of the body, made with the possibility of elastic deformation of the body through the skin, measuring transducer linear displacement of the body connected to the microprocessor. An angle sensor is additionally introduced into the tonometer

deviations of the axis of free fall of the body from the vertical, located on the board perpendicular to the axis of incidence of the body and connected via a microprocessor to means for generating an audio or light signal about the deviation of the body from the axis of incidence of the body when measuring (see patent for utility model of the Russian Federation No. 50096 according to class A61B 3 / 16 for 2005).

The disadvantage of the described device is the complex design and a significant error in the measurement of intraocular pressure because the body is made in the form of a rod with a flat base with an area of 1-7 mm ² and is located on the vertical axis of the falling body. Since the area is too small, its contact during installation is too small, which negatively affects the measurement process itself. The time for installing a tonometer is increased and the high qualification of a worker who uses this tonometer when measuring pressure inside the eye of a patient is required.

The technical task of the proposed solution is to eliminate these drawbacks, improve the accuracy of measurement and simplify the design of devices for measuring intraocular pressure directly through the skin.

The specified technical problem is achieved by the fact that in the proposed eye tonometer, an indicator comprising a body, inside which there is a freely falling body with a latch, fixed from falling out by a removable tip, an axially movable rod with a supporting surface, a measuring transducer with digital indication, a control unit and transformations of linear displacements of the falling body and the sensor of angular deviation of the axis of free fall of the body from the vertical, the sensor of angular deviation of the falling body is equipped scrap alignment with the longitudinal axis of the body axis of the body fall connected to the control unit and lock the falling body and the abutment surface on the piston rod is pivotally mounted in a horizontal plane and is formed in U-shape with pointed ends.

Figure 1 - schematically shows a General view of the proposed eye tonometer.

As shown in the drawings, the proposed tonometer comprises a housing 1, inside of which a falling body 2 is located in its lower part, in the form of a rod fixed from falling out by a latch 3. On the latch 3, a support surface 4 is fixed, through which the rod 2 passes. In the middle of the housing part 1, there is a transducer 5 for moving the rod 2 with a digital indicator 6, a control unit with a button 7, and an angular deviation sensor 8 with an alignment unit 9. The support 4 is equipped with two pointed ends 10 and 11 located on both sides of the w current 2 and mounted on the upper eyelid 12 of the eye 13 with the lens 14 located on the line of sight 15 at an angle of 45 to the horizontal axis 16 between the upper eyelid 12 and the lower eyelid 17. The longitudinal axis 18 of the housing 1 at the time of measurement is perpendicular to the axis 16.

The work of the proposed tonometer is as follows. The patient is placed on a couch or seated on a chair so that his head is positioned horizontally face up. Approach the patient on the left if the tonometer is located in the right hand or on the right if in the left hand. Set and fix the direction of view along line 15 at approximately an angle of 45 with respect to the horizontal axis 16. Then, without putting pressure on the eye 13, the ends 10 and 11 of the support 4 are placed on the cartilaginous surface of the eyelid 12. Then, using the button 7, turn on the power and turn the case in the vertical plane achieve complete coincidence of the node 9 with the vertical axis 18. At this moment, the falling body freely moves down and as a result of free fall strikes the outer surface of the eyelid 12. The results of the impact using a meter 5 are converted into digital images and displayed on indicator 6. After striking, the rod 2 returns to its original position and if button 7 is not

off, then it falls again down. When measuring again, button 7 is pressed and the process repeats. After the measurement, the housing 1 rises and is removed from the patient's eye 13. In case the longitudinal axis 15 does not coincide with the vertical axis 18, even if the button 7 is turned on, the rod 2 is held in the up position until the alignment unit is located on the vertical axis 15.

The use of the sensor’s angular deviations of the case from the vertical axis in the tonometer design completely eliminates the distortion and deviations of the case from the vertical, which improves the measurement accuracy. The fastenings in the lower part of the support with pointed ends located on either side of the falling rod allow the tonometer body to be evenly based on the patient’s upper eyelid, deform it if necessary by a different size, and the rod should always be placed between them and create optimal conditions for the measurement value.

Using the proposed device will improve the quality of the measurement, reduce the time it takes to take measurements and does not affect the patient’s well-being during the measurement process. The device itself is made compact, convenient for transportation and safe during use in comparison with known structures of a similar purpose.

Claims (1)

An eye tonometer indicator, comprising a body, inside which a freely falling body in the form of a rod with a supporting surface, a falling body retainer, a measuring transducer with digital indication, a control unit and converting linear movements of the falling body, and a sensor for angular deviation of the axis of free fall of the body from the vertical, are installed, characterized in that the sensor of the angular deviation of the falling body is equipped with a unit for aligning the longitudinal axis of the body with the axis of incidence of the body, connected to the control unit and the latch falling second body, and the bearing surface on the rod is rotatably mounted in a horizontal plane and is formed in U-shape with pointed ends.