DE656475C - Process for image composition or image decomposition for television purposes - Google Patents

Description

Process for image composition or image decomposition for television purposes It is known to use moving mirrors in projection receivers for television purposes, through which the image of a fixed aperture is projected onto a screen. Included is initially only: a single optical system required. Dia in general, on the back Silver-plated mirrors are used, but arise because of the reflection the front and back of the mirror are double images, which are considerably disruptive can. This disadvantage can be avoided in that the mirrors are parallel Beam path can be arranged: a measure that is used in optical image compensation in the cinematograph which is already known. An example is shown in Fig. i given. The controlled light source i provides a luminous flux that the; Brightness values of the image to be transmitted. The fixed aperture z, which of this Luminous flux is traversed, is located in the focal plane of an optical system 3, drawn as a simple lens in Fig. I. That of a mirror 4. of a Weiller Mirror wheel 5 reflected light falls: on, a second optical system 6 and is united in its focal plane -tun Blen, the image 7 on the screen, 8. The same Of course, considerations apply not only to a Weiller's mirror wheel, but also for equivalent devices, e.g. B. for two polygonal mirrors. With this arrangement in the parallel beam path one will now generally find that, although the aperture a on your screen 8 is sharply imaged - that of the individual mirrors drawn lines either overlap or there are gaps between them; remain, so that light or dark stripes appear between the lines. This evil is: eliminated by the invention. According to the invention, the moving are rearward Silver-plated mirror arranged in the parallel beam path, and the ratio of Aperture size and focal length of the one between the aperture and the moving mirror optical system is chosen equal to 4. "divided by the number of pixels. Under The number of pixels is the ratio of the area of the television picture and the area of the Understand the aperture image on the screen 8. In this case, there are no gaps between; the lines are still covered. According to this rule it becomes possible ensure the correct line spacing on the screen from the outset.

It then only depends on the correct choice of the edge length of the diaphragm : 2 and the focal length of the optical system 3. This consideration applies strictly only for the case: that the screen 8 .has the shape of a spherical surface,: yes let her help you the practical cases with sufficient Accuracy on a flat image. expand the screen.

The previous statements were a qua-; dratic aperture. If other diaphragm shapes are used, the length of the edge must be used Insert squares which, under otherwise identical conditions, have the same size as the TV picture would result.

To get the ratio V of the edge length of the aperture to the focal length of the Systems 3 are generally custom-made aperture openings or by optical systems. To get around this: it can be an advantage be to provide means that allow a constant change in the ratio V in allow certain limits. In most cases it is because of the small size of the Aperture not possible to change its size, especially if its shape is not square. So all that remains is to adjust the focal length of system 3 change. Various ways known from optics are possible for this purpose. It will several optical systems are used for this purpose, their equivalent focal length can be changed within certain limits. So two optical systems can be connected in series and by changing their distance the equivalent focal length: e can be changed. Such a case is shown in Fig. 2, in which the two optical systems are represented by the lenses 9 and i o. Otherwise, the same designations apply as in Fig. i.

Another possibility of changing the focal length of the optical According to Fig. 3, system 3 consists in that from. the aperture 2 with the help of the optical System i i in .the level 12 makes an intermediate image and: first the aperture image at 12 by means of the optical system 3 further images via the mirror 4. Even Here you can find the right one by changing the spacing between lenses and diaphragm Joining of the lines or the correct overlap of the lines in the case of non-square ones Reaching holes.

"What was said above about the composition of images, also applies to scanning on the transmitter side. Again, it must be flawless To be able to perform scanning, the correct line width by means of the ratio 17 can be set.

Claims (4)

PATENTANsrRi`, cirr_: i. Process for image composition or image decomposition for television purposes, in which a fixed screen is silver-plated over the moving rear Mirror is imaged on a screen, characterized in that when arranged the moving mirror in the parallel beam path determines the ratio of the aperture size: and the focal length of the system located between the diaphragm and the moving mirror are the same 4 divided by the number of pixels is chosen. 2. Establishment for the procedure according to claim i, characterized in that it goes between the diaphragm and the mirror located optical system has a variable focal length. 3. Establishment according to claim 2, characterized in that the optical system consists of two sub-systems exists, the spacing of which can be changed. 4. The method according to claim i, characterized characterized in that an image of the diaphragm can be changed by means of an optical system Size is designed, which via .a second optical system and via the moving Mirror is shown on the screen.