DD226187A1 - DEVICE FOR THE TESTING OF SHEAR AND BINOCULAR SHOW - Google Patents

Abstract

The device according to the invention for testing the visual acuity and binocular vision is used in a device for eye examination, in particular for refraction determination. The aim of the invention is a device that allows the examination of Sehschaerfe, the binocular vision and the measurement of phoria in a Geraetekonfiguration. The object of the invention is to design the device so that the imaging beam length for the optotypes for the right and left eye of a subject are independent of each other in their angles of incidence in the respective eye variable. According to the invention, the object is achieved in that a separate projection system projects the optotypes onto the retina of the subject and that the projection systems are movable independently of one another in a plurality of degrees of freedom.

Description

-2- 658 69

Subjects 4 movably attached to the frame 3. Image guide cables 20 and 21 are used to transmit images of the respective corneal vertex, which are designed by a respective adjustment telescope system arranged on each side in the support tube 5, to a control console (not shown). Thus, the operator can observe the corneal vertex distance of the subject to a predetermined alignment mark and z. B. adjust by adjusting the forehead support 19.

Further image guide cables 22, 23 transmit the image of the respective subject pupil over the projection beam path to the control panel. By means of handles 24, 25, the operator can move the projectors 11 and 14 within their degrees of freedom in the simplest case. Advantageously known motor drives and position encoders are available for each movement, which can be controlled by the operator from the control panel.

The function of the device according to the invention will be described below.

A subject is placed in front of the device so that his forehead rest against the forehead support 19. The operator watches on a suitable screen on the control panel, the position of the eye pupil, whose image is transmitted through the Bildleitkabel 22, 23. By moving the projectors 11 and 14 along the axis 6, the alignment of the pupils is carried out according to a crosshair or similar alignment marks. By appropriate position sensor, the position of the projectors on the support tube 5 is displayed and the pupil distance is read. Subsequently or simultaneously, the height compensation is done by moving the projectors 11 and 14 along the axes 10 and 13 until the pupils are aligned with the crosshairs. The height offset is then readable.

Thereafter, the adjustment of the corneal vertex distance by moving the forehead support parallel to the gaze of the subject under observation of transmitted through the Bildleitkabel 20, 21 images of the corneal vertex in relation to the corresponding alignment mark. The device is now aligned so that the axis 6 coincides with the connecting line of the eye's pivot points of the subject and the axes 10 and 13 each extend through the associated eye pivot point. Subsequently, in a known manner, the monocular remote correction for each eye. After this is completed, the binocular vision is tested. Projectors 11 and 14 provide the subject with special test marks (a different field for each eye). According to the test subjects, the projectors 11 and 14 are pivoted independently of one another about the associated axes 6, 10 and 13 until the test person optimally perceives the optotypes. From the registered position of the projectors, the values for the prismatic correction can now be read off and / or registered within the device. Retaining the projector's set position, any necessary post-correction of the long-distance refraction is now possible.

Subsequently, an examination of the stereoscopic vision can be carried out by presenting the known suitable test characters whose partial images are transmitted by the respective projector. Any resulting change in prismatic correction is made by panning the projectors about the respective axes.

To check the near vision (year fraction), the convergence adjustment is made by pivoting the projectors 11, 14 about the axes 10, 13 and shifting the images of the test marks into the near distance through the optical systems present in the projectors. By imaging different corrective lenses in front of the respective eye of the test subject, the age fraction is carried out according to its evaluation. The set values are again readable or registrable.

To speed up the examinations already known values for refraction or of phoria can be entered before the start of the test.

There is also the possibility of upper refraction, d. H. Determination of refraction by a person worn spectacles or contact lenses.

With a suitable design of the projectors and an objective refraction determination with the device according to the invention is advantageously possible.

Claims (2)

1. Apparatus for examining visual acuity and binocular vision with a projection system for imaging test marks on the retina of a subject and corrective lenses in front of or on the subject's cornea, characterized in that a separate one for the right and left eyes of the subject Projection system for imaging of test marks and correction lenses are present, that each projection system is pivotable about two mutually perpendicular axes and along the axes displaceable, that the first of these axes is a common for both projection systems, substantially horizontally extending axis, which Positioning of the device to the subject with the connecting line between the eye rotation points of the subject matches and that each projection system associated, substantially vertically extending, second axis after positioning the first axis intersects in the fulcrum of the eye , -1- 658 69 Invention claims: 2. Apparatus according to claim 1, characterized in that all movements of the projection systems are driven by a motor and that the position of the projectors are detected with position encoders and fed to a central display. For this 1 page drawings Field of application of the invention The invention finds application in an apparatus for eye examination, in particular for refraction determination. Characteristic of the known technical solutions Devices for so-called free-standing refraction determination are known, in which the imaging of test marks on the retina of a subject via mirror and lens systems by a concave mirror (US Pat. he follows. The image of a test mark is presented by beam splitting separately to both eyes. The projection of required correction optics in both systems takes place largely along the same optical axes as the image of the test marks in the main plane of the subject's eye according to the principle of imaging virtual lenses in front of or on the cornea of the eye. Due to the physical beam splitting according to US-P a test of binocular vision is not possible. According to DE-OS, the beam splitting takes place geometrically. In order to allow a complete examination of the binocular vision, a split test mark would have to be inserted whose center point position must be adjustable. This leads to considerable equipment technical effort. The detection of phoria is also not possible with the solutions mentioned. The demand for a qualitative and quantitative assessment of the binocular vision has at this time gained much greater importance, especially as the increased demands on visual performance in many areas, eg. B. with the growing number of screen workplaces, an optimal correction of the subject's eye is required. The ability to measure phoria and the optimal examination of binocular vision is thus absolutely necessary. Object of the invention The invention has the aim of eliminating the disadvantages mentioned, in particular an apparatus is to be provided which allows the examination of visual acuity and binocular vision and the measurement of phoria in a device configuration. Explanation of the essence of the invention The invention relates to a device for checking visual acuity and binocular vision with a projection system for imaging test marks on the retina of a subject and corrective lenses in front of or on the eyes of the subject. The problem to be solved is an o. G. Device to be designed so that the imaging beam paths for the right and left eye of the subject are independently variable in their angle of incidence in the respective eye and optionally both eyes the same test mark or each eye a different test brand can be presented. According to the invention the object is achieved in that a separate projection system is available for the right and the left eye of the subject each. Each projection system is pivotable about two mutually perpendicular axes and slidably mounted along the axes. The first of these axes is common to both projection systems and is essentially horizontal. It agrees after the positioning of the subject to the device with the connecting line between the eye rotation points of the subject. The second axis associated with each projection system intersects the first axis after adjustment in the pivot point of the respective eye to be examined. Advantageously, all possible rotations and displacements of the two projection systems are driven by a motor and the respective positions are detected by means of position encoders and fed to a central display. This can be coupled to a computer. embodiment The invention will be explained in more detail below with reference to the schematic drawing, which shows a device according to the invention in working position. On a column 1, a support 2 is fixed, which carries a frame 3. Advantageously, the carrier 2 is pivotably mounted with the device according to the invention about the axis of the column 1. Thus, the device can be pivoted in front of a subject 4. On the frame 3, two support tubes 5 are fixed, which have a common axis 6. In working position, the device for the subject 4 is aligned so that the axis 6 passes through the eye pivot points of the subject 4. Two U-shaped brackets 7 and 8 are independently displaceable on the support tubes 5 and mounted rotatably about the axis 6. On the bracket 7, a further support tube 9 is fixed with an axis 10 on which a first projector 11 is rotatable about the axis 10 and slidably mounted along the axis 10. A support tube 12 with an axis 13 is fixed to the bracket 8 and carries a second projector 14. This is in turn displaceable along the axis 13 and rotatably supported about this. The projectors 11 and 14 are used for the projection of test marks in an associated proband eye and virtual correction lenses in front of the subject eye. The extensions of the lines 7 and 8 intersect in working position, the axis 6 in the respective eye rotation of the subject 4. At each projector 11 and 14, a support rod 15 and 16 is attached, the partially transparent mirrors 17 and 18 carry. These serve to deflect the projection beam paths to the subject eyes. An end support 19 is parallel to the viewing direction of the