EP0595817A1

EP0595817A1 - Binocular device for determination of refraction

Info

Publication number: EP0595817A1
Application number: EP92908565A
Authority: EP
Inventors: Rudolf Baumann; Franz Nickel
Original assignee: Individual
Current assignee: Individual
Priority date: 1991-04-25
Filing date: 1992-04-23
Publication date: 1994-05-11
Also published as: WO1992019149A1; JPH06501186A

Abstract

Les montures (20, 21) des verres de réfraction et le pont (22) sur le nez sont retenus chacun par des éléments de retenue (11, 12, 13) sur une tige filetée qui sert de support (10). Ces éléments de retenue sont pourvus d'engrenages coniques et peuvent être axialement déplacés sur le support (10) au moyen d'une poignée (35). Tous les boutons (16, 26, 35) sont agencés sur un plan commun, de sorte que l'opticien n'a pas besoin de les saisir, afin d'effectuer les réglages devant les yeux du patient examiné, mais peut effectuer tous les ajustements nécessaires à l'extérieur du champ de vision du patient. Afin d'effectuer l'examen de la vue, une unité d'affichage à cristaux liquides est placée dans la trajectoire des rayons entre une surface de projection (42) de signes polarisés et les yeux du patient examiné. Cette unité permet de modifier les images dans les deux trajectoires de rayons indépendamment ou simultanément. L'utilisation d'unités d'affichage à cristaux liquides comme élément de commande permet une commutation très rapide, que le patient examiné ne peut guère percevoir et qui n'influence donc pas l'évaluation.The frames (20, 21) of the refracting lenses and the bridge (22) on the nose are each retained by retainers (11, 12, 13) on a threaded rod which serves as a support (10). These retaining elements are provided with bevel gears and can be moved axially on the support (10) by means of a handle (35). All the buttons (16, 26, 35) are arranged on a common plane, so that the optician does not have to grasp them, in order to make the adjustments in front of the eyes of the patient examined, but can make all the necessary adjustments outside the patient's field of vision. In order to perform the eye examination, a liquid crystal display unit is placed in the path of the rays between a projection surface (42) of polarized signs and the eyes of the patient being examined. This unit allows images to be edited in both ray paths independently or simultaneously. The use of liquid crystal display units as the control element enables very fast switching, which the patient being examined can hardly perceive and which therefore does not influence the evaluation.

Description

DEVICE FOR BINOCULAR REFRACTION DETERMINATION

The present invention relates to a device for binocular refraction determination according to the preamble of independent claim 1.

CH-A-645 010 describes such a device in which the refraction glasses can be inclined towards one another in corresponding holders in order to determine the near-point refraction. The holders can be adjusted to the pupil distance by means of axial adjustment handles on an elongated support. The disadvantage of this device is the mechanically complex structure, so that the patient has to be presented with a relatively large housing,

It is an object of the invention to provide such a device that can be put on the patient as ordinary glasses.

According to the invention, this is achieved by the features in the characterizing part of independent claim 1. Exemplary embodiments of the invention are explained below with reference to the drawing. Show it:

1 is a perspective view of a device according to the invention

2 is a perspective view of a holding element for a holder for holding the refraction glasses on a larger scale,

3 is a perspective view of an angular gear for the adjustment of the holder and the nasal support,

4 shows an eye test device with a projector for use in an inventive device according to FIG. 1, and

5 shows an eye test device with polarized test characters for use in the device according to FIG. 1.

The carrier 10 consists of a rigid threaded rod, on which holding elements 11, 12, 13 for a refractive glass holder 20, 21 for each eye of a patient and for a nasal support 22 are applied. The holding elements 11, 12, 13 are designed as angular gears according to FIG. 3. A crown gear 31 is provided with an internal thread and moves the holding element 30 axially on the carrier 10 when rotating. A pin 33 mounted in a guide 32 fastened to the holding element 30 carries a further gear wheel 34 which meshes with the crown gear 31. At its free end, the pin 33 carries a grip part 35. With such a holding element, the refraction glass holders 20.21 can be adjusted to the pupil distance of the patient. 1 and 2 show, the refraction glass holders 20, 21 are rigidly attached to a holding element 11, 13. In conventional construction, these consist of a fixed ring 23, which can be provided with a scale in order to determine the axes of cylindrical sections or the like. A second ring 24 carries refraction glass carrier 25 and this second ring 24 can be rotated by a handle part 26 by means of a gear.

The nasal support 22 is fastened to a holding element 12, which can have the same structure as the holding element 30 shown in FIG. 3. The rod 27 to which the nasal support 22 is fastened can be designed as a threaded rod, and this can be done by means of of a further holding element 28, which is rigidly attached to holding element 12, can be adjusted in height or in length.

Finally, the brackets 14, which are articulated on the outside of the carrier 10, are pivotably supported up and down by means of a further gear 15 in order to adapt them to the different positions of the ears and eyes. For this purpose, handle parts 16.

In this exemplary embodiment, all grip parts 16, 26, 35, ie without grip part 29 for the height adjustability of the nasal support 22, are arranged in a common plane, so that the optician only for the adjustment of the height of the nasal support 22 from the front against the head of the Patient must grip. All other settings can be operated from the side or from above, so that the patient never has to feel that his eyes are at risk. The holding elements 11, 12, 13 can each be fixed by means of lock nuts 17.

In the case of subjective refraction, hereinafter referred to as an eye test, it is advantageous if so-called separators are used, which allow the test subject's two eyes to be presented with different test signs simultaneously or quasi-simultaneously.

In conventional devices for refraction measurement, such as, for example, in an embodiment according to the aforementioned CH-A-645 010, mechanical isolators have been provided. However, a large number of Trennera are based on the polarization principle. For the proposed invention, a rapid switchover of the presentation should now be made possible, which also allows identical repetitions. The polarization filters previously used had to be turned so that a quick switchover between different visual impressions was not possible. In addition, the polarization filters cannot be installed at any location due to the required accessibility. In addition, polarization filters with a small diameter, for example in the close inspection, emanate undesired .comodation, fusion or fixation stimuli. ultimately, the switching devices are subject to mechanical wear.

According to the invention, it is now provided that an analyzer is provided in the beam path between the test symbol and the test subject's two eyes, the direction of polarization in each beam path being changeable by an electrically controllable unit. At least one LCD unit can be provided as an electrically controllable unit, with which the polarization direction in each beam path is independent of the other beam. lengang is changeable. This does not necessarily mean that the polarization direction in the two beam paths must always be crossed by 90 °, rather, in certain cases, a simultaneous change can also take place.

The use of LCD units, for example, allows the visual impressions of the left and right eyes to be exchanged. Such a change can be carried out within a few milliseconds, so that the test person can find practically no interruption in the visual impression.

Due to the simple technical feasibility for switching the LCD unit, for example by means of a switch, the installation of an LCD unit is not subject to any restrictions:

For example, in the case of a vision test device in which a projector is used to project polarized test characters, the LCD unit can be provided in or immediately in front of the projector. This form of training has the advantage that the entire luminous flux is recorded and that irregularities in the LCD unit are averaged out. It is also possible to arrange the LCD unit in front of the test characters or in front of a projection surface onto which a projector projects the test characters.

Accordingly, FIG. 4 shows an eye test device with a projector 41, which is set up for projecting linearly polarized test characters onto a projection surface 42. Furthermore, the observation beam path is shown, in which the test subject's two eyes are denoted by 44 and test glasses or a phoropter by 43. The electrically controllable unit 45, with which the direction of polarization can be changed in each beam path and which can preferably be an LCD unit, can, as already mentioned, be provided in or immediately in front of the projector 41. Alternatively, the electrically controllable unit 45 (shown in dashed lines) could be arranged in front of the test characters or in front of the projection surface 42 or in the region of the test glasses 43 (shown in dash-dot lines).

In the further exemplary embodiment according to FIG. 5, identical or corresponding parts are designated with the same reference symbols. The description is therefore not repeated.

Here, the test characters are not projected, but are provided as linearly polarized test characters on a board 42. In this case, the electrically controllable unit 45 can be arranged in front of the test characters or in the area of the test glasses, or combined with the test glasses.

In each of the two described embodiments, an eye test device is obtained in which an LCD unit is arranged in each beam path, which can change the linear polarization direction in the two beam paths independently of one another or simultaneously.

Claims

PATENT CLAIMS

1. Device for binocular refraction determination with a carrier (10), on which brackets (14) for the holder are articulated on the side of the ear cups and on the two holders (11, 12), each with a fixed ring (23 ) and a second ring (24), which can be rotated relative to the latter, with plug-in holders (25) for refraction glasses, and a nasal pillar (22) are held, characterized in that the carrier (10) is an elongated, rigid rod with a screw thread it is designed that the holders (20, 21) and the nasal support (22) are each fastened to a holding element (11, 12, 13) which is longitudinally displaceable on the support (10), and that lock nuts (17) are also present are to fix the holding elements (11, 12, 13) against unintentional displacement, and that a binocular vision test device with polarized test characters is present, which is an electrical in the beam path between the test characters and said plug-in holders (25) controllable unit for changing the direction of polarization comprises.

Device according to claim 1, characterized in that the electrically controllable unit comprises at least one LCD unit.

Device according to claim 1 or 2, with a projector for projecting polarized test characters onto a projection surface, thereby 25 characterized in that the electrically controllable unit is provided in or immediately in front of the projector.

Apparatus according to claim 1 or 2, characterized in that the electrically controllable unit is arranged in front of the test characters or in front of a projection surface onto which a projector ^" projects the test characters ^" .

5. Apparatus according to claim 1 or 2, characterized in that 10 the electrically controllable unit is combined with the plug holders (25).

Device according to one of claims 2 to 5, characterized in that an LCD unit is arranged in each beam path in order to change the polarization direction for each eye of the test person independently or simultaneously.

20 Device according to claim 1, characterized in that the holding elements (11, 12, 13) are provided with an angular gear (31, 34), of which the one gear wheel (34) with a pin (33) and a handle part (35) is rigidly connected, and the other gear (31) in its hub has a nut thread for the screw thread of the carrier.

Device according to .Anspruch 1, characterized in that the second ring (24) is provided with a bevel gear on its periphery 30, that a bevel gear on the first ring (23) loaded Gert, which is rigidly connected to an axial pin and a handle part (26), and that the brackets (14) have on their articulated side a bevel gear segment, which with an axially rotatably mounted on the carrier (10) bevel gear with an axial pin and a handle part (16) is rigidly connected. 5

Device according to one of claims 1, 7 or 8, characterized gekenn¬ characterized in that the nasal support (22) is provided with a rack element (27) as a support, and that on the holding element 10 (12) a gear is rotatably mounted is integrally connected with an axial pin and a handle part (29).

10. Device according to one of the claims 7 to 9, characterized in that the handle parts (35) for the displacement of the holders (20, 21) and the nasal pillar (22) protrude upwards such that the handle parts (16) to move the brackets (14) project axially from the carrier (10), that the handle part (35) on the nasal support (22) is directed towards the length adjustment thereof, and that the handle parts (26) for turning the second rings (24) are directed downwards outwards.