SU1113117A1 - Eye prosthesis - Google Patents

Abstract

A CLEAR PROSTHESIS containing simulators of the eye block and iris with a pupil and a mechanism for moving the latter, controlled by the cult of the eye globes, are different, so that, in order to increase the angle of the iris, the mechanism for moving the iris with the pupil and 3 M: electromagnets connected via a control switch with a power source, and electrodes for removing biopotentials mounted on the outer wall of the eye block at the places of contact with the cult of the pinch and connected through preamplifiers with the control switch when This simulator iris made in the form of a lenticular ferromagnetic disk placed in a chamber with a transparent front wall, the camera is located in front of the simulator eye unit, and electromagnets - inside it, close to the camera. (L S 00

Description

The invention relates to medical equipment, namely to ocular prosthetics and can be used to make up for a cosmetic defect after removal of the eyeball for now.

A known ocular prosthesis containing imitators of the eyeball and the iris with the pupil and the mechanism of movement of the latter, controlled by the cultivation of the ocular muscle tlj ?.

The disadvantages of the known prosthesis are that it has moving parts (a movable iris with a pupil), which, due to their 15 contact with the mucous membrane of the eyelids, can cause irritation and unhygienic. In addition, the rotation angles of the iris are limited by the design of the rotary device, since 20 the iris is fixed to a pin (lever), which has a certain finite length, and on the other end of the pin there is a button that 25 muscles are implanted into the stump. Thus, the lever (pin) is obtained fixed on one of the walls of the eye (ball) and the turns of its second end are limited by the shape of the ball, i.e. its front sphere, ₃ θ and the displacement zone is limited by the length of the lever.

The purpose of the invention is to increase the angle of rotation of the iris.

This goal is achieved by the fact that in an ophthalmic prosthesis containing imitators of the eyeball and iris with the pupil and the mechanism of movement of the latter, controlled by stumps of the eye muscles, the mechanism of movement of the iris with the pupil includes electromagnets connected through a control switch to a power source, and electrodes for removing biopotentials, mounted on the outer wall of the eyeball in places of contact with muscle stumps and connected through preamplifiers to the control switch, while the iris simulator is made in the form echevitseobraznogo ferromagnetic-magnetic disk housed in a chamber with a transparent front wall, which chamber is situated in front of the simulator of the eyeball, and elekt'romagnity - inside, close to the camera.

The drawing shows an ocular prosthesis in two projections.

The ocular prosthesis contains an eyeball simulator 1, in front of which there is a chamber 2 with a transparent list of walls, inside which an iris simulator is placed, made in the form of a lenticular disk 3 of ferromagnetic material. Close to chamber 2 inside the simulator 1 are set eyeball electromagnets 4, · connected via a control switch 5 to power 'the power (not shown), the control switch can be formed as an analog-to-digital preob- ¹ verters, group decoder and electromagnetic switches. The control switch 5 through the preamplifiers 6 is connected to the electrodes 7 mounted on the outer wall of the eyeball simulator and used to remove the biopotentials of muscle stumps, and the electrodes are installed in places of contact with the latter.

An eye prosthesis works as follows.

The electrodes 7 located on the outer wall of the eyeball simulator 1 at the points of contact with the stumps, the muscles responsible for the movement of the eyeball, take the corresponding biopotentials proportional to the angular turns of the eyeball, which are amplified by the preamplifiers 6 and transferred to the control switch 5. At the same time, the control switch 5 generates signals proportional to the angles of rotation of the eyeball and, depending on these signals, supplies power to one or more electromagnets 4. Electromagnets located ennye close to the chamber 2 is formed a magnetic field causing movement of lens-ferromagnetic disc 3 inside the chamber 2. To ensure smooth movement of the disc 3, chamber 2 can be filled with liquid. Thus, a simulated movement of the iris with the pupil occurs, corresponding to the synchronous rotation of a healthy eye.

Since the rotation of the iris in the proposed eye prosthesis is not limited by anything, the rotation angle of the iris simulator corresponds to the natural one and practically does not depend on the mobility of the stumps.

Claims (1)

5 LASIS PROSTHESIS containing simulators of the eyeball and the iris with the pupil and the mechanism of movement of the latter, controlled by the stumps of the eye muscles, characterized in that, in order to increase the angle of rotation of the iris, the mechanism of movement of the iris with the pupil includes electromagnets connected via a control a switch with a power source, and electrodes for removing biopotentials mounted on the outer wall of the eyeball at the points of contact with muscle stumps and connected through preamplifiers to the control switch, while simulating the iris is formed as a lens-ferromagnetic disk placed in the chamber with hydrochloric transparent front wall, which chamber is situated in front of the simulator of the eyeball, and electromagnets - inside, close to the camera. J