DD153855B1 - APPARATUS FOR NETWORK PHOTOGRAPHY - Google Patents

Description

First, a first and a second intermediate image is created by the patient's retina in a known manner. The second intermediate image is imaged by an optical system in a field stop as a third intermediate image. In this case, the magnification can be adjusted in a predetermined range and the focusing screen of the reticle can be carried out by the variable focal length of this system. The third reticle is projected through another lens as a flat screen in the film plane of the camera, or when tilted mirror in the beam path for stereo photography and stereo observation. A second folding mirror in the common observation and stereotone beam path separates the observation from the stereo photography. It is observed on the second folding mirror, when folding away this second folding mirror of the stereotactile beam path is released. To produce a flat-panel photograph, the first folding mirror is switched out of the beam path while the second folding mirror remains stationary. In stereo photography, the second folding mirror is switched and the first folding mirror stops. By a switch is set which of the two folding mirrors is turned on when pressing the photo shutter as a folding mirror.

embodiment

On an embodiment shown in the accompanying drawings, the invention will be described in more detail. The drawing shows a schematic representation of the optical structure of the device according to the invention. The retina 2 of the patient's eye 1 is illuminated in a sufficiently large angular range by a known illumination system consisting of a bulb 15 as pilot illumination and a flashlamp 13 as photo illumination, the condenser lens 14 and 12, the illumination lenses 10,8,7 and an ophthalmoscope lens 4 , A mirror 11 as a folding mirror switches the pilot or photo lighting, while a mirror 9 acts as a simple deflection mirror. About a hole mirror 6 of the illumination beam path and the photo or observation beam path are merged. The incandescent lamp 15 or the flashlamp 13 is initially imaged in the mirror plane 6 and then in the patient pupil 3. The condenser 14 or 12 is imaged via the following optics and the optics of the patient's eye onto the retina 2 of the patient's eye and determines there the sufficiently large one light field. The observation of the illuminated retina 2 takes place via the ophthalmoscope lens 4 through the perforated mirror 6, the fixed folding mirrors 23 and 34 and finally via a tube objective 40 and an eyepiece 44 of a binocular viewer, not shown. In this case, a retinal image at infinity, which is brought into focus by the ophthalmoscope lens 4, is generated by the retina of the retina, which initially assumed to be a legal eye.

The reverse intermediate image 5 formed there is imaged through the perforated mirror 6 through an objective 16 in the telecentric beam path into the intermediate image 17. A subsequent objective 18 with a variable focal length generates the intermediate image 20 in a fixed field diaphragm 21. The aperture diaphragm 19 is assigned to the perforated mirror 6 and the patient pupil 3. With the objective 18, which is preferably equipped with variable focal length, but which can also be replaced by lenses with a different focal length, the desired magnification of the reticle intermediate image 20 is set. In addition, by axial displacement of the lens 18 an existing defective vision of the patient's eye 1 can be compensated. In this case, the reticle intermediate image 20 does not change its position relative to the diaphragm 21. Via an objective 28, the intermediate image 29 is generated via the folding mirror 23 in an image field diaphragm 47 via an objective 33 and the folding mirror 34. The tube objective 40 images the intermediate image 39 into the eyepiece intermediate image 43, so that the retinal image can be observed by means of an eyepiece 44 through the observer's eye 46.

The aperture diaphragm 19 is imaged by the field lens 22 and by the field lens 30 into a stereo diaphragm 31. Two rhombic prisms 32 halve the stereo diaphragm 31, so that from here on, a double beam path is subsequently present. The latter is simply shown in the drawing. The deflection mirrors 41 and 42 cause a parallel displacement of the beam paths and allow the adjustment of the pupil distance for the observer. The exit pupil 45 is associated with the stereo diaphragm 31. A field stop 47 is switched on when switching from flat to stereo image and vice versa, so that a clear boundary of the retinal image for both observation and for stereo photography is available. The observer thus sees in the eyepiece the switching state flat or stereo image.

For flat photography, a lens 25 is arranged with the aperture 24 after the folding mirror 23. The aperture diaphragm 24 is conjugated to the patient pupil 3. When folding the folding mirror 23 synchronously with the folding mirror 11 in the illumination beam path, a retinal image 26 is generated in the film plane of the flat screen camera through the lens 25, at the same time the way for the photo lighting is released by switching the folding mirror 11 and triggered the flash. For stereo photography switching the function for the folding mirror 23 and the folding mirror 34. The folding mirror 23 is fixed, the folding mirror 34 is switched and gives the way for the following lenses 36 free. When switching the folding mirror 34, the reticle interlacement 35 is formed, which is imaged by the objective 36 via a deflection mirror 37 into the plane of the film, which coincides with the retinal image 38 of the stereo chamber. Again, in the light direction after the stereo prisms 32 two parallel beam paths are present, the distance, d. H. the stereo base for the camera is determined by the stereo prisms 32.

The flat screen camera and the stereo camera are identical and can be exchanged for each other. There are commercially available 35 mm cameras without lens, without any special requirements for the movie set.

Claims (2)

1. A device for retinal photography, consisting of an illumination beam path, an observation beam path, a beam path for flat picture and a beam path for stereo photo, wherein an optical assembly consisting of an aperture and a lens, a second optical assembly consisting of an objective, a field lens, Stereoprisms, a field stop and other lenses, as well as a third optical assembly, consisting of a tube lens, an eyepiece and deflecting mirrors are provided by a lit retina and an ophthalmoscope lens a first reticle, a second reticle by a lens and a third lens by a third lens Retinal mesh image formed in a fixed field stop, which retains its position when focusing and changing the magnification, characterized in that the observation beam path switched on initially fixed folding mirror (23,34) t is and when switching a folding mirror (23) of the beam path for flat picture is turned on and when switching another folding mirror (34) with a fixed first folding mirror (23), the beam path for stereo photo is turned on. 2. Device according to item 1, characterized in that the field stop (47) is switched on when switching the folding mirror (23,34), so that the switching state of flat or stereo image is clearly recognizable in the eyepiece. For this 1 page drawing Field of application of the invention The invention relates to a device for retinal photography for selectively recording a flat picture or a stereo image. Characteristic of the known technical solutions There are gauges for observing the retina and for photoframing for flat or stereo image known. Changing the type of observation or the type of documentation for these devices is done by exchanging modules. In a known embodiment, a prism group for pupil division is switched on and the photo system including the observation tube is exchanged. In DE-AS No. 2744707 it is pointed out in a stereoscopic retinal camera that the pupil is not divided in non-stereoscopic observation and documentation. However, no switching option is specified. The disadvantage of the known systems for the transition from flat to stereo image is that additional modules must be replaced on the standard device. The device is adjusted to the patient and must be set up again. For flat / stereo cameras, where only one of the two stereo images is offered for flat screen, the film format is not fully utilized; the flat screen then offers no larger image content than the stereo image. In such a case, in which the flat image represents one of the two stereo images, as a result of the pupil division, this flat biography is also exposed to only half the light intensity as in the stereo image, ie. H. the light energy must be doubled to allow adequate exposure. In special cases, z. As in fluorescence angiography with fast image sequence, the increase in light energy limits, especially because of the capacity of the flash lamps. This results in the need for the quick change from flat screen to stereo image and vice versa for the photo documentation in order to be able to apply the optimum documentation in each case. Object of the invention The aim of the invention is to eliminate the disadvantages mentioned. Essence of the invention The object of the invention is to ensure a transition from flat to stereo image while observing possibility without the replacement of whole assemblies. According to the invention the object is in a device for retinal photography, with an illumination beam path, an observation beam path consisting of a tube objective, an eyepiece and deflecting mirrors, a beam path for flat picture, consisting of an aperture and an eyepiece, and a beam path for stereo photo, consisting of a lens , a field lens, stereo prisms, a field stop, as well as other objectives in which an illuminated retina of a first, second and third retinal image is created, wherein the third retinal image lies in the field stop and retains its position when focusing and changing the magnification, thereby solved in that the observation beam path is switched on via initially fixed folding mirrors (23) (34) and the beam path for a flat screen photo is switched on when switching a folding mirror (23) and when a further folding mirror (34) is switched when the first folding mirror is stationary gel (23) the beam path for stereo photo is turned on.