NL9201321A - Method for measuring the cornea of the human eye and a keratometer equipped for this purpose. - Google Patents

Description

Hermanus Cornells Limmen, in Schagen, the Netherlands. Method for measuring the cornea of the human eye as well as a keratometer equipped for that purpose.

The invention relates to a method for measuring the cornea of the human eye and to a keratometer arranged for this purpose.

When measuring the human eye of a client - by an ophthalmologist, optician or contact lens specialist - especially for prescribing contact lenses, the central boiling of the cornea of the eye in horizontal and vertical direction is usually determined with a keratometer. Until now there was no certainty about the area of the eye, where the cornea takes the aspherical shape. In particular for contact lens wearers and wearers, however, it is essential that the apparent side of the contact lenses be ground in such a way that this aspherical region is taken into account.

The object of the invention is to provide a method of the type referred to in the preamble, with which the cornea can also be measured in that respect.

To this end, the method for measuring the cornea of a human eye using a keratometer is characterized in that the client first looks with an eye in question at an internal fixation point arranged in the focus of the keratometer, wherein the central cornea is horizontally and vertically radii are measured and recorded with the keratometer, then a second external fixation point is placed exactly on the optical axis in front of the internal fixation point, i.e. between keratometer and the eye, so that the client automatically looks at this external fixation point with the eye concerned, and then rotating the keratometer about the vertical axis horizontally to either side of the optical axis until the angles where the spherical cornea merges into the a-spherical cornea are observed, both of which are observed final corneal values.

This method makes it possible to accurately measure the cornea. The information obtained thereby makes it possible to determine the following necessary data for the contact lens to be manufactured: the base curve, the optical zone, the aspherical periphery and the edge smoothing.

Another object of the invention is to convert a kerometer in such a way that it has become suitable for carrying out the above method.

For this purpose, a keratometer according to the invention for performing measurements on the human eye provided with an internal fixation point in the focal point on the optical axis has the characteristics that it is rotatable about a vertical axis in the horizontal plane, which is a horizontal protractor applied to read the keratometer reading on either side of the optical axis, and that the keratometer has an external fixation point that can be placed between the client's eye and the internal fixation point.

The keratometer therefore only has to undergo a few changes in order to make it suitable for performing the described measurement: the installation of a rotatable carrying arm and the installation of an external fixation point.

Preferably, the external fixation point is attached to a horizontally movable carriage mounted on the patient's chin rest and is vertically adjustable.

The invention will be explained in more detail below with reference to a non-limiting exemplary embodiment in the accompanying sketch-like drawing.

Fig. 1 is a side view of a keratometer according to the invention for the implementation of the measuring method according to the invention.

Fig. 2 is a top view of the arrangement of FIG. 1.

Fig. 3 is a perspective view of the kerometer according to the invention.

The same parts are indicated with the same reference numerals in all three figures.

On the top 10 of an underframe 11, on the left-hand side in fig. 1, a chin rest 13 carried by two vertical rods 12 and a forehead support 14, each adjustable in height, are arranged for the patient.

The eye of the patient to be examined and measured is indicated by 15 in Fig. 1.

On the examiner's side - which examiner can be an ophthalmologist, ophthalmologist, contact lens specialist or optician - so in fig. 1 the right side, on the top 10 the base 16 of a keratometer is mounted. The base 16 is conventionally slidable sideways on the top, but this is not shown in the drawing. The keratometer 17 is supported by a support ring 18, and an L-shaped curved support arm 19. The keratometer can be rotated about its longitudinal axis for normal examination.

The end of the carrying arm 19 is pivotally mounted about a vertical axis on the base 16. The carrying arm 19 of the keratometer 17 is adapted such that the keratometer is arranged rotatably about the axis of the focal point, with the result that the keratometer remains constantly in focus during the measurement.

The internal fixation point of the keratometer is formed by an illuminating point-shaped light source 20. Above the horizontal part of the L-shaped supporting arm 19, a fixed protractor 21 with a scale is arranged. At the vertical part of the rotatable arm 19 there is a sector-shaped plate 22 above this scale 21 and parallel thereto, the radial boundaries of which for the researcher are the respective angular rotation of the arm 19 and thus of the keratometer 17 to the left or to the left. on the right of the scale. The researcher can read this angular position quickly on the degree scale 21 without having to turn his head in any significant way.

After the central measurement has been carried out, the internal fixation point 20 is not switched off, but is no longer used for the further measurement. A vertically adjustable fixing point 24 is arranged on the chin rest 13 on a horizontally movable slide 23, which is placed in front of the internal fixing point 20 after the central measurement has been carried out. The client involuntarily starts looking at this second external fixation point with the eye in question. As a result, the keratometer can now be turned away without the client changing the eye position. The point where the spherical cornea merges into the a-spherical cornea can be determined on either side, and both of these extreme cornea values are read by the examiner at the protractor 21 and then recorded.

The described method makes it possible to measure the cornea very accurately. The information obtained thereby has the ability to precisely determine the following necessary lens data: base curve spherical optical zone angle alpha a-spherical periphery and edge smoothing.

This makes it possible to manufacture a contact lens, which is, as it were, custom-made, depending on the eyeball of each person individually. This achieves that a better fit is obtained for the user or user and therefore a considerably less degree of irritation of the tissue under the contact lens is experienced.

Claims (3)

Method for measuring the cornea of a human eye using a keratometer, characterized in that the client first looks with an eye in question at an internal fixation point arranged in a focus of the keratometer, wherein the center is horizontally and vertically corneal radii are measured and recorded with the keratometer, which then places a second, external fixation point exactly on the optical axis in front of the internal fixation point, i.e. between keratometer and the eye, so that the patient with the eye in question automatically goes to this external fixation point and then the keratometer about the vertical axis is rotated horizontally on both sides of the optical axis until the angles are observed where the spherical cornea merges into the a-spherical cornea, both of which are observed final corneal values. Keratometer, for taking measurements on the human eye, adapted to carry out the method according to claim 1, characterized in that the keratometer is provided with an internal fixation point in the focal point on the optical axis, that the keratometer a vertical axis is rotatable in the horizontal plane, a horizontal protractor is provided to read the keratometer reading on either side of the optical axis, and the keratometer has an external fixation point positioned between the client's eye and the internal fixation point can be brought. Keratometer according to claim 2, characterized in that the external fixation point is mounted on a horizontally movable slide arranged on the patient's chin rest and is vertically adjustable.