DE1168764B - Method for rectifying panorama ring images using glass fiber optics - Google Patents

Description

Method for rectifying panorama ring images by means of glass fiber optics Methods for rectifying panoramic ring images are known. They are partly based on the principle of back-projecting the ring images via a similar optic, with which they were made, on a focusing screen or photosensitive paper, on the other hand, electronic aids, such as industrial television systems, used in appropriate form. Both procedures are based on intermediary operations such as film processing or television scanning, and leave the equalization only take place with a time shift.

Another known for some time is fiber optics, one Technology in which the amount of light from an image point is transported over one Fiberglass is made. Each fiber optic takes a certain amount of light, which depends on its aperture, and glues it as a result of multiple reflections on its wall until it emerges. Since the wall of such a fiber optic one is subjected to a special surface treatment - it is covered with a coat of Glass of a different refractive index coated or mirrored - that can be the case Light does not escape. The optical performance of such glass fibers is therefore very high cheap, and they are used in a variety of systems, especially where others optical systems would require a great deal of effort. Because in an optical system one optical fiber each transports an image point from glass fibers depends, of course, on it the quality of the entire transmitted image on the number of in this system contained glass fibers.

But now there are many effects that can be achieved with fiber optics in a simple manner cannot be achieved with normal optical means. In particular This includes optical devices that are able to read the content of a Deform the image for specific purposes. For example, by applying the optical fiber optics take place an image transmission, whereby the recorded image field can have a different form than the reproduced image field, there can also be transmission systems be put together, which is a complete encryption and decryption again enable image content. This is achieved in that the position of the glass fibers is different in the recording level than in the playback level. The difficulty The production of such optics is about ensuring the correct order of the individual optical fibers at the ends of such transmission systems. Furthermore are Systems have become known, where by means of fiber optics several images to one image complex can be united. This is particularly true of image transmission systems, where the overall image is to be composed of individual color images, as is the case, for example is required for color television.

The invention is based on the object of creating a glass fiber optic, which is suitable for converting a ring image created with a panorama optic into a rectified one To transfer long image form in order to make an immediate observation without delay to be able to.

The invention consists in that on the side of the panoramic ring image The glass fibers are pushed over one another in a tubular shape in several ring-shaped image lines and that the associated display page consists of layers stacked in a block, linear image lines. .

Since the light value of one pixel is transmitted by one glass fiber is, the order of the glass fibers is for the de-graining process according to a certain Scheme required. It must be achieved that a circular image line of the Ring-. image is converted into a long image line. This is the production standardized line transmission systems, for example, whose accuracy is flawless Translation guaranteed. The glass fiber system is produced according to the invention in that the glass fibers used to transmit the pixels are individually and successively inserted into a slot, the width of which corresponds to the diameter of the Glass fibers corresponds, so that a defined position of the individual glass fibers is guaranteed is, whereby the side provided for scanning the ring image is deformed in a tubular shape will while the Reproduction page obtained as a linear image page remain. The glass fibers are held, glued and trimmed in the slot. Push one L7 together of the glass fibers is not possible with a precisely adjusted slot, so the sequence is inevitably ensured. The prepared image transmission lines are then removed from the mold and put together to form a complete rectification optic, whereby the ends intended for the receiving side of the circular image lines form a tube are bent together, while those intended for the reproduction side of the long picture Ends are stacked to form a block.

It is recommended that the end of the pipe, which consists of rows of rings, build up from the inside, this corresponds to a row layering of the block from below.

After completion, the fiber optic ends are to be ground and to polish optically. There is a slight difference in length between the lines from the inside of the tubular end, which is a corresponding shortening of the lower lines of the block. This difference is well known to be corrected by connecting an anamorphic optic upstream.

The drawing shows an exemplary embodiment of the subject matter of the invention shown, namely shows F i g. 1 the arrangement of the glass fibers, F i g. 2 in one Slit inlaid glass fibers, FIG. 3 bending a fiber optic line.

F i g. 1 shows at 1 the area which is from the ring image of a panoramic optic is applied. It is made up of tubular ends 2 of the image lines filled with a fiber optic. The other ends of this optic are in linear Lines are layered on top of one another to form a block 3 and here result in the rectified long picture. The classification of the glass fibers can be seen in the drawing in such a way that, for. B. the glass fiber 4 assigned to the circular image at 0 °, also at 0 ° of the long image, that is, at the beginning of the image line 5. Between these ends, around 6, are the Glass fibers combined to form a tube with no particular order.

The production of the individual image lines takes place according to FIG. 2 in the way that the glass fibers, as shown at 7, individually in a micrometer slot 8 are inserted into a mold 9, whereby an image line 10 is created.

The ends of an image line 11 produced in this way are treated separately (see FIG. 3) in that the end 12 is bent together to form a tube, while the end 13 becomes a line of the long image block 3.

With a sufficiently small diameter of the glass fiber used, the should be about 5 to 10 [, the resolution can be described as very good and therefore the image quality is correspondingly high.

Claims (2)

Claims: 1. Device for rectifying panorama ring images by means of glass fiber optics, d a -characterized that on the side of the panoramic ring image The glass fibers are pushed over one another in a tubular shape in several ring-shaped image lines and that the associated display page is stacked to form a block linear image lines. 2. Method of manufacturing a device according to Claim 1, characterized in that those used to transmit the image points Glass fibers are placed individually and one after the other in a slot in a mold, whose width corresponds to the diameter of the glass fibers, so that a defined Position of the individual glass fibers is guaranteed, with the for the inclusion of the Panoramic ring image serving side is deformed tubular, while the display side is retained as a linear image line. References Considered: U.S. Patents No. 2 825 260, 3 043 179, 1751584.