RU2001450C1 - Information medium - Google Patents

Abstract

The invention relates to information processing devices. The purpose of the invention is the expansion of operational capabilities while reducing the dimensions of the medium. The information carrier contains a housing in which information labels are made with reflective surfaces. Information labels are made in the form of holes of different sections with translucent mirror screens at the boundary of at least two optical fibers in contact with each other, walls which are reflective surfaces, one of the optical fibers serving to transmit repeatedly reflected, pulsed radiation and the other - for the refracted carrying information. 4 cp f-ls, 5 ill.

Description

The invention relates to information processing, in particular to information carriers that are read out by optical radiation.

The purpose of the invention is the expansion of operational capabilities while reducing the dimensions of the carrier.

In FIG. 1 shows a longitudinal section of a carrier along an information track; in FIG. 2, 3 and 4 are track layouts; in FIG. 5 is a sectional view of an end face of a carrier with an information track in two parallel planes.

The information carrier comprises a first light-conducting layer 1 and a light-reflecting layer 2 in contact with it with successive marks 3 in the form of through holes of various sections, forming an information track 4 from rectilinear sections. The second light-conducting layer 5 is in contact with the other side of the light-reflecting layer 2, made with translucent mirror screens 6 from the side of the first light-conducting layer. On the outer sides of the light-conducting layers 1 and 5, reflective layers 7 and 8 are located. Labels 3 of the information track 4 are located with the same a step equal to the step size of the reflection points from one reflective layer and different from the step size of the reflection points from another reflective layer, respectively, days of un refracted 9 and refracted 10 opt radiation in the first and second light-conducting layers. Information tracks within straight sections can

Claims (5)

SUMMARY OF THE INVENTION 1. An INFORMATION MEDIA containing a first light guide layer and a light reflecting layer in contact with it, arranged consecutively in the form of through holes, forming an information track from straight sections, characterized in that, in order to expand operational capabilities while reducing the dimensions of the carrier, a second light-conducting layer is introduced into it, which is in contact with the other side of the reflective layer, made with translucent mirror screens on both of them i. chrons, and two reflective layers located respectively on the outer surfaces of the first and second light guide layers, and the through holes of the labels of the information layer have different sections. 2, Media according to and 1, characterized in be parallel to one plane or at an angle to one another, and also located in several parallel or intersecting planes. The carrier may have reflective elements 11 and 12 mounted on the ends of the straight sections of the information track 4 and two reflective layers 7 and 8 from their inner side with the formation continuous track. The information is read as follows. Optical radiation (beam) is fed into the first light guide layer 1 at a certain angle so that, repeatedly reflected within this layer 5, the radiation always hits the information labels 3. Moreover, the optical radiation is supplied by a short pulse. Part of the optical radiation 9 is constant 0 remains inside the reflective layer 1, due to the presence of translucent mirror screens 6, the other arrives sequentially when passing through information marks 3 into the light guide layer 5. The information directly is the change in the amount of optical radiation in time at the exit from the light guide layer 5. The invention will expand the operational capabilities (increase the reading speed and the amount of information received) while reducing the dimensions of the medium. (56) Nakajima X, Ogawa X. M .: Radio and communications, 5 1988. USSR copyright certificate No. 678521, cl. G 11 B 7/24, 1979, the fact that the marks of the Q-information track are arranged with the same pitch equal to the step size of the reflection points from one reflective layer and different from the step size of the reflection points from another reflective layer, respectively, for the unreflected and refracted pulsed optical radiation in the first and second light-guiding layer x. 3. A carrier according to claim 1, characterized in that the information tracks within the rectangular sections are located parallel to one plane or at an angle to one another. 4. The carrier of claim 1, wherein that the information track is located in several parallel or intersecting planes. 5. The carrier according to claim 1, characterized in that reflective elements mounted on the ends of pr 5 are inserted into it. of the linear sections of the information of the inner sides with the formation of a continuous and two reflective layers from their jerky information track. 8. U //////////////////////////////, h ////////// 7/77 //////////////////// A / Figure 1 Fig, 1 Ml