DE1254386B - Arrangement for information recording or scanning with bundled radiation - Google Patents

Description

Arrangement for information recording or scanning with bundled Radiation Information recording and reproducing devices are known which binary encrypted information in the form of into a recording medium Save high-energy radiation burned-in holes. The very tightly bundled An argon laser beam is perpendicular to a translucent polyester tape directed, which has an opaque, milky special coating. This coating is burned by the laser beam at individual points, remains at other points You receive. Due to the strong bundling of the beams, it is possible to make holes with a Burn diameter of about 1 g into the material. In the places where the If the coating is removed, the storage tape becomes clear while adhering to the remains opaque to other places.

The recording of information takes place in the process mentioned similar to the long-known mechanical punched tape, but can Compared to this, because of the small size of the holes, a very large information density be achieved. Another advantage is that the recording speed can be chosen very high compared to known methods, as for the perforation no mechanically moving parts are required.

The invention aims to provide a device of the type described to create in which the storage density, the number of bits per unit area, compared to the known method can be increased several times.

This improvement is achieved according to the invention in that in one Recording medium groups of bore-like holes with mutually non-parallel Axes are generated or scanned.

The invention is illustrated below with reference to those shown in the figure Sketch explained in more detail, showing the scheme of a different hole-like hole Plays the directions showing the data carrier.

A transparent polyester tape 2, moved in the direction of the arrow and provided with an opaque, milky coating 1 , is simultaneously hit by the beams of three gas lasers 6, 7, 8 directed at different angles onto a point on the surface, depending on the information to be stored. As a result, three bore-like holes 4, 3, 5 are burned into the coating, of which, according to the example shown, one runs in the direction of the incidence solder and the other two run in opposite directions at an angle of about 45 ° towards this. Using only one point of incidence of rays, three information bits can thus be stored in that, independently of one another, each of the three holes is either present or absent. The number of angles of inclination with respect to the perpendicular or the hole directions can be increased compared to the example, and the holes can penetrate one another.

The sampling of the bits stored in this way can e.g. B. be carried out with a similar laser arrangement and with detectors 9, 10, 11 if the radiation is dosed so that it does not burn parts of the coating again, but only penetrates the holes, and if the radiation direction and the beam impact point are the same as when writing to get voted. When the tape is sensed with an intensity e.g. B. is about a tenth of that used for writing, the rays hit through the holes in the coating and through the transparent polyester tape on the detectors 9, 10, 11 attached below the tape, without burning any further layer material.

The described type of tape labeling or scanning assumes that that holes with a diameter of a fraction of the layer thickness are burned. The figure shows that the ratio of layer thickness to beam diameter must be at least about 4: 1. It is also clear that the unaffected is selective Reading out is also possible when holes are partially or completely mutually exclusive penetrate.

The information recording according to the invention has the advantage that, without the hole spacing on the surface of the coating compared to the known Procedures to change the information density of a recording medium is increased several times. As the for burning the holes in the known facilities The laser beams used have extremely small diameters and thicknesses anyway the coating provided for burning in the holes is already based on technological Reasons has a certain minimum strength, the invention makes a better one Utilization of the volume already available through the coating is achieved. The attachment of lasers at different angles corresponds roughly in their technical Uses of the common arrangement for multiple lanes.

The application of the invention is not restricted to coated ones Foils, it can rather also be perforated in the manner of a perforated strip material be used, which has sufficient mechanical strength and at the same time the Has the properties required for laser processing. Furthermore, plate and card-shaped information carriers or also strand-shaped material for the described Type of perforation can be used.

When using strand or thread-like material in the described In this way, there is the possibility of using several lasers in an approximately semicircular shape around the recording medium to be arranged so that the rays cross approximately in the middle of the strand or thread. Such a structure has the advantage that even with a relatively small distance the laser from the recording medium provides sufficient space for each laser stands.

When using strand or thread-like material, it is advantageous to to choose a cross-section of the recording medium that deviates from the circular shape, in order to be able to move it in a defined position with guide means.

Claims (3)

Claims: 1. Writing and / or scanning arrangement for in binary Form available information in which for the purpose of information storage with The help of sharply focused high-energy radiation, especially laser radiation, holes generated or scanned in the storage layer of a recording medium are, d a d u r c h g e - indicates that groups are used to increase the storage density generated by bore-like holes (3, 4, 5) with axes that are not parallel to each other or are scanned. 2. writing and / or scanning arrangement according to claim 1, characterized characterized in that bore-like holes (3, 4, 5) with non-parallel axes have a common radiation inlet or outlet. 3. Writing and / or Scanning arrangement according to Claim 1 or 2, characterized in that the recording medium Is strand or thread-shaped.