DE8307299U1 - Device for testing heterophoria - Google Patents

Description

Yonicüung for testing eeterophoria

The invention relates to a Vtoi dbtung ¹ for testing heterophores in ophthalmology and ophthalmic optics

In order to test for heterophoria it is necessary to "both Ocular acuses that are normally common in vision are directed at an object or image to decouple. Test mark images are preferably used for the heterophoria test projected, which consist of red and green image parts, viewed by the test subject through anaglyph glasses that switches a red filter in front of one eye and a green filter in front of the other eye (K. Mütze: "Brockhaus ABC der Optik", F.A. Brockhaus Verlag Leipzig 1961

P. 135 ff.).

Ea are also other filter combinations, e.g. red and blue possible. Polarization filters are usually used to project and view stereo images. in order to separate the two eyes from each other, which are to be assigned separately. The security of the separation of the two Beam paths depend both on the polarization properties of the filter and on the orientation of the Analyzer glasses to the projected image.

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It is therefore not absolutely guaranteed and therefore misdiagnosis can occur.

The separation by different colored filters or anaglyph glasses makes high demands for test purposes to the spectral blocking effect of the filter, whereby the suppression of the residual permeability only takes a lot of effort and or succeeds by reducing the brightness of the projected image.

The aim of the invention is an arrangement for testing Hetersr ^ sTie, which guarantees an objective test result and does not have the disadvantages mentioned.

The invention is based on the object of an anaglyph system to create which the partial beam paths for the left and the right eye with little effort and high Reliability separates.

It is based on an arrangement in which a right and a left half of the image by means of a projection beam path is displayed in different colors on a projection screen. This figure is dated Subjects viewed through anaglyph glasses with the halves of the image appropriately assigned color filters. According to the invention The object is achieved in that a polarizer in the projection beam path of each half of the image is arranged. The two polarizers have polarization directions that are perpendicular to one another. the Anaglyph glasses have an analyzer assigned to each half of the image in the direction of view of the test person. the The direction of polarization of the respective analyzer corresponds to the direction of polarization of the assigned polarizer match.

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The invention is explained in more detail below with reference to the schematic drawing.

The figure shows a light source 1, a condenser 2, a projection objective 3 and a slide 4 with polarizing foils 5 and 6 polarizing perpendicular to one another and color filters 7 and 8, Slide 4, polarization filters 5 and 6 and color filters 7 and 8 are cemented together. A metallized one Projection screen 9 can be viewed through improved anaglyph glasses 10. The anaglyph glasses 10 exist essentially consisting of a glass plate 11, a polarizing film 12 and a color filter 13 in front of the left eye and | a glass plate 14, a polarizing film and a! Color filter 16 in front of the right eye. Polarizing filter and color filters of the slide (4, 5, 6, 7, 8) and of anaglyph glasses (11, 12, 13, 14, 15, 16) are in relation to each other oriented that they support each other in their separating effect. Filters 8 and 16 are correct in color and polarization filter 5 and 15 coincide in the polarization direction; The correspondence of filters 7 and 13 is corresponding and the polarization filters 6 and 12.

Does the projected image 17 have the one shown in this example Shape and shows a vertical row of red dots in the right half of the picture and one in the left half of the picture green arrow, the left half of the image is only perceived by the left eye and the right half of the image is only perceived by the right eye. Even if the spectral transmittance curves of the red and green filters used overlap, the two halves of the image are separated by the additional use of polarizers and analyzers in both partial beam paths.

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Claims (1)

yccrioütung for the examination of heteropoly, "with the one reoate and a left half of the image by means of a projection beam path displayed in different colors on a projection screen and with a corresponding associated color filters provided anaglyph glasses are considered, characterized in that in the projection beam path each half of the image a polarizer is arranged that the polarizers perpendicular to each other polarize and that the anaglyph glasses contain an analyzer assigned to each half of the image, the direction of polarization of which corresponds to the corresponding polarizer in the projection beam input matches. 1 page of drawings 10/6/82
Ltn / Pa 4023