DE19644620A1 - Coated or deposited carrier material device - Google Patents

Abstract

The device has a transparent point, and line or area markings (2a,2b) in at least one partial region of the carrier material (12). This is in a coating or deposition (11) on the carrier material, or in a protective film (10). The markings can consist of text, graphics, holograms, effects or other graphic symbols. At least one marker can he applied to the surface of the information carrier, and at least one marker can be applied within the carrier material.

Description

The invention relates to a device from a coating tied or steamed carrier material according to the generic term of claim 1 and a method for producing the Device according to claim 12.

They are information carriers in the form of steamed with metal or coated films, glass slides or Compact Discs (CD) known, in which the information in a thin, optically scannable layer are stored.  

Such information carriers serve, for example, the Storage of holograms, texts, graphics, photos or other effects.

Holography is a three-dimensional object in a flat layer on a foil or another Document shown so that it clears for a viewer appears. Mostly the holograms are in the thin Layers coded by groove-like depressions. With holo graphic method is also a data storage with high data density possible.

Compact disks are becoming a large amount of data today used. There is usually a compact disc from a transparent polycarbonate pane, the one has metallic coating. The data (e.g. music, Computer programs, videos etc.) are in digital form as microscopic wells (pits; length 0.8 to 4.6 µm, width 0.5 µm, track spacing 1.6 µm) in the metallic Coating of the compact disc saved. When recording music These pits are the digital images of the acoustics analog signals. In addition to the acoustic data are on a music CD u. a. Information about the doors stereo channels as well as labeling of the individual Pieces of music available, so that on a certain piece of music can be accessed directly.

Unlike records, the data of a compact disc is read from the inside out, with a compact disc typically rotating at 200-500 rpm. The digital information stored in the pits is scanned by a laser beam from a semiconductor laser. The light beam is directed onto the compact disc using a system of mirrors, lenses and prisms. The information stored on the compact disc is read out via the reflection of the scanning laser beam on the metallic coating. The reflected laser beam is reflected differently at the pits than at the spaces between the pits. This creates a modulated pattern in the reflected laser beam that can be converted back into digital data. When the digitally stored data of a compact disc is scanned without contact, a servo circuit ensures that the laser beam exactly hits the track of the pits. The maximum playing time of a compact disc common today is approximately 75 minutes. A compact disc can usually hold 650 megabytes as data storage.

In a first manufacturing step of a compact disc a flat glass with a light-sensitive layer Mistake. Then by exposure to a laser applied a pattern for the pits. The exposed Parts of the glass pane are then etched away, see above that the pits are present as depressions in the glass pane. The etched glass pane is turned into several steps made a metal impression that serves as a matrix for the Pressing the actual compact disc is used. After Pressing the compact disc, the pits lie in the plastic carrier germ material with an opaque, reflective Metal layer (e.g. made of aluminum) is vaporized. To the Protection of the metal layer is still with a protection layer covered.  

A typical compact disc thus consists of an art fabric carrier, a metallic Be applied thereon layering and a protective layer for the coating.

With today's coated information carriers is it u. a. usual, information about the stored In formations or a reference to copyright ben. This is done by printing a label on the information carrier. The disadvantage here is that the Imprint on the information carrier is not permanent and can be easily removed. Even with one Print achieve only limited aesthetic effects, so that the design options for the information carriers are restricted.

The object of the present invention is the basis, an information carrier, a being direction, wafer or microchip, visual aid or the like to create the label that is durable and tamper-proof are flexible options for aesthetic design offer or enable optical corrections.

This object is achieved by a device with the features of claim 1 and a method for Manufacture of the device with the features of the claim 12 solved.

The information carrier, the viewing facility or Visual aids have transparent markings in some areas on with a carrier material, with a loading layering of the carrier material and / or with a protection  layer of the information carrier, the viewer device, the wafer, microchips or the visual aid are so that the markings are an integral part of the device. A manipulation on a marker thus inevitably leads to destruction of the device tung. Due to the transparency of the markings achieve a wide variety of aesthetic effects with a printed inscription are not possible. As carrier material al an information carrier, a viewing facility device, a wafer, microchips or a visual aid e.g. B. rigid plastics, plastic films, glass panes (Dia positive) or ground or unground optical Glasses in question.

In an advantageous embodiment, the markie exist texts, symbols, graphics, holograms, effects ten (e.g. lighting effects) or other graphic characters. In principle, therefore, every graphically representable pattern is to mark the information carrier, the viewing device or visual aid suitable, so that a variety of design options. A marking of a Information carrier, a viewing facility or Visual aid through a hologram leads to a particularly high one Security against counterfeiting and enables visual Corrections.

In a further advantageous embodiment, minde at least a mark on the surface of an information wearer, a viewing facility or visual aid brings. Such a marking can be particularly easy to apply.  

It is advantageous for the information medium according to the invention ger, the viewing device or visual aid at least a mark in the coating and / or the carrier material attached itself so that these markings before External influences are particularly well protected.

In a particularly advantageous embodiment form is the coating of the information carrier, the Viewing device or visual aid at least in the area under and / or broken through a mark so that Light can pass through here largely unhindered can. The marking then appears in this area particularly bright. B. coated glass slides (gobos) translucent in places of light from a projector, where the coating is removed.

In a further particularly advantageous embodiment at least one marker from a large number of microscopes small inclusions (e.g. bubbles, particles or similar) in the Backing material, the coating or a protective layer educated. The translucency of the inclusions gives way thereby from that of the surrounding material, so that the Mar This can be recognized by the different transparency is. Due to the very small inclusions, complex markings with a high resolution in the In Bring formation bearers.

In a likewise advantageous embodiment, this is Carrier material of the information carrier according to the invention, the viewing device or visual aid with a metalli rule provided coating, as z. B. of compact discs  (CD) is known. Thus, e.g. B. the widespread CDs permanently with markings or copyright information be provided.

In a further advantageous embodiment, this is Backing material and / or the coating with a be layered film. Especially holograms often depicted in foils, so that this is easier Way with the information carrier, the viewer device, the wafer, microchip or the visual aid can be.

The markings on the outside are particularly advantageous Edge area of the information carrier, wafers, microchips, attached to the viewing device or visual aid. There in usually with information carriers, viewing facilities no data or visual aids in the peripheral area the markings can be placed here without affecting the storage capacity.

Preferably for a visual aid with optical or uncut at least on a partial surface of the glasses a plurality of preferably evenly distributed markings conditions in the coating or vapor deposition of the glasses, esp special cross or slit patterns are provided, which serve as a focus aid for the eye of the user and if necessary, make a lens lens unnecessary. Furthermore can make special corrections of vision defects with the help of Slit or cross patterns can be performed.  

A method according to the invention produces with a laser beam transparent markings in parts of the Infor mation carrier, wafers, microchips, the viewing device device or visual aid. With the laser beam finest Structures of a point, line and / or area Marking can be created. Because a laser beam is very accurate and can be controlled quickly, even complex mar markings very quickly on the information carrier, wafers, Microchip, the viewing device or visual aid be brought.

It is advantageous in the process according to the invention Pulse laser or a continuous wave laser for attaching the Markings used. The laser pulse or beam is focused or scattered by a lens system and by a moving scanner mirror so on the information sträger controlled that the markings in the information carrier ger arise. In this way, with the fiction process also very fine structures as markings be used.

In a particularly advantageous embodiment of the process rens is in the beam path between a laser source and the Information carrier a mask, in particular a program matable liquid crystal mask arranged. By the The laser beam passes through the mask Direction, color or other property of the Laser light so affected that with the laser beam under different information in a marker of the Informati  on carrier be attached. Through the mask a variety of patterns for the markings on simple Generate wise.

The invention is described below with reference to the Figures of the drawings on several embodiments explained in more detail. Show it:

Figure 1 is a schematic sectional view through a compact disc as an information carrier.

Fig. 2 is a schematic representation of a compact disc with transparent markings thereon and an image representation;

Fig. 3 is a schematic representation of the inventive method for marking SEN Informationsträ like;

Fig. 4 is a schematic representation of a visual aid with marked glasses.

Fig. 1 shows a schematic sectional view of a compact disc as the information carrier 1. Three layers are shown, of which a compact disc essentially consists: a protective layer 10 , a metallic coating 11 and a carrier material 12 . As a rule, an uncoated Compact Disc 1 made of polycarbonate is completely transparent. The metallic coating 11 gives the compact disc 1 its typically opaque, silvery appearance.

In normal use of the compact disc 1 , the protective layer 10 points downward. A scanning laser, not shown here, reads the information stored on the Compact Disc 1 from this page.

The digital data are stored on the compact disc 1 in the form of pits 4 , which are introduced into the carrier material 12 . The carrier material 12 is coated with the metallic coating 11 . This metallic coating 11 usually consists of a vapor-deposited aluminum layer. The laser beam of the scanning laser moves the pits 4 , whereby a modu lated signal is generated by the reflections on the pits 4 , which contains the data scanned by the compact disc 1 . This data can e.g. B. represent a piece of music, a computer program or a video.

The markings 2 a, 2 b according to FIG. 2, not shown in FIG. 1, can be applied in the protective layer 10 , the metallic coating 11 or the carrier material 12 . Also, combinations of marks 2 a, 2 b of the layers in several possible.

In alternative embodiments, the information carrier 1 has a film, a glass pane or a paper sheet as the carrier material 12 . With this z. B. a holo gram connected on a film or a glass sheet. The markings 1 are 2 a, 2 b, mutatis mutandis, in similar manner as mounted on the compact disc 1 of FIG..

Fig. 2 shows various possibilities of marks 2 a, 2 b and their arrangement on a Compact Disc 1.

The mark 2 a consists of a series of symbols that are attached to the outer edge of the compact disc 1 . The marks 2 can be a produced by applying the metallic coating 11 is scribed with a laser beam so that light through the scribed marks 2 a way through.

The mark 2 b consists of an image, which is also attached to the outer edge of the compact disc 1 . Here, the metallic coating 11 is only removed at some points or partially removed, so that the transparent te marking 2 b arises from the interaction of areas of different brightness. The individual pixels of the mark 2 b have an extent in the micrometer range.

Since Compact Discs 1 are read from the inside to the outside when read by the scanning laser, which is not shown here, it is advantageous to place the markings 2 a, 2 b in the outer edge region, since the storage capacity is not or only slightly influenced. It is also possible, marks 2 a, 2 b to install deliberately in a specific or entire memory area in order to prevent a partial or entire reading of the vomit in a compact disc 1 cherten data. This may be necessary for security reasons.

The markings 2 a, 2 b can have a purely decorative character if, for example, B. used in art objects or in advertising. The marks 2a, 2b but may also contain readable information. The readable information z. B. consist of a bar code that can only be read by machines. The markings 2 a, 2 b can also contain a reference to an author of the information carrier 1 , wherein the reference cannot be removed without destroying it due to the embedding of the markings 2 a, 2 b in the compact disc 1 .

In addition to the marks 2 a, 2 b, the Compact Disc can 1 also a label 3 having an imprint in the per se known shape.

In Fig. 3 schematically illustrates the inventive method for production of information carriers is shown with markings.

A laser beam 19 emitted by a laser 20 runs through an opto-electronic system 21 , 22 , 23 and strikes the information carrier 1 . In the illustrated case is when the information carrier is a compact disc 1 on which marks 2 a, 2 b are to be attached.

The laser 20 can optionally consist of a pulse laser or a continuous wave laser.

The laser beam 19 is focused or scattered by optical lenses 21 , between which a controllable and / or programmable liquid crystal mask 22 is arranged. By activating or deactivating pixels (eg light and dark pixels), a pattern is created in the liquid crystal mask 22 through which the laser beam 19 penetrates or is masked out. The thus sampled pattern is in the form of the marks 2 a, 2 b on the compact disc 1 is introduced. The programmable liquid crystal mask 22 may include information about the shape of the marks 2 a, 2 b, are housed in a laser pulse.

In the illustrated embodiment of the method according to the invention, the liquid crystal mask 22 is arranged between the optical lenses 21 . In other embodiments, the liquid crystal mask 22 can be arranged at an arbitrary position in the beam path of the laser beam 19 .

After the lenses 21 and the liquid crystal mask 22 , the laser beam 19 strikes a movable scanner mirror 23 , which deflects the laser beam 19 in the direction of the compact disc 1 . By a not shown control of the scanner mirror 23 the laser beam 19 is so guided over the compact disc 1, the marks 2 a, 2 b on the compact disc 1 formed.

The laser beam 19 processes the metallic coating 11 in the compact disc 1 , so that transparent markings 2 a, 2 b are generated in the compact disc 1 by the complete or partial removal of the coating 11 . In an alternative embodiment 19 microscopic A connections are produced by the laser beam, from which the marks 2 a, 2 b are quantitative sets together.

Fig. 4 shows a spectacle frame 30 , on the front of which coated, radiation-deflecting or unpolished glasses 1 are arranged as information carriers or visual aids with markings 2 c, 2 d.

The markings 2 c on the right side of the glasses have a regular pattern that can be used as a focusing aid for one eye or both eyes. Due to different gradations of brightness of the markings 2 c (e.g. by different densities of small inclusions or dots), the markings 2 c can also be used in the manner of sunglasses or as multi-vision glasses.

In particular, the markings 2 c can consist of small slits, crosses or points that are incorporated in the information carrier 1 .

A suitable arrangement of markings 2 c can in particular be used to replace ground spectacle lenses. Since the processing of an information carrier 1 with a laser 20 is possible faster than the previously usual grinding of spectacle lenses, considerable costs can be saved to who.

With a laser 20, the processing of the information carrier 1 is possible with high accuracy, so that even complex visual disorders (e.g. very different eyesight in the field of view, astigmatism) can be easily compensated for.

The markings 2 d on the left side of the glasses are designed as graphic representations. This can be particularly useful for achieving an aesthetic effect. Of course, markings 2 d can also be arranged in front of both eyes.

The information carrier 1 are arranged here on the front of the glasses frame 30 . In another embodiment, the information carrier 1 can also be arranged on the side of the glasses 30 , as is the case, for. B. is common with snow or ski goggles.

The invention is not limited in its execution the preferred embodiments given above le. Rather, a number of variants are conceivable, which of the information carrier according to the invention and the method for its manufacture even with fundamentally different types make use of the ten versions.

Claims (15)

1. Device made of a coated or vapor-coated carrier material, in particular an information carrier, wafer, microchip, a viewing device or visual aid, characterized in that in at least a partial area of the carrier material ( 12 ), a coating or vapor deposition ( 11 ) of the carrier material ( 12 ) and / or a protective layer ( 10 ) of the device point, line and / or flat transparent markings ( 2 a, 2 b) are attached. 2. Device according to claim 1, characterized in that the markings ( 2 a, 2 b) consist of texts, symbols, graphics, holograms, effects or other graphic symbols. 3. Apparatus according to claim 1 or 2, characterized in that at least one mark ( 2 a, 2 b) on the surface of the information carrier ( 1 ) is introduced. 4. The device according to at least one of the preceding claims, characterized in that at least one mark ( 2 a, 2 b) in the carrier material ( 12 ) is brought to. 5. The device according to at least one of the preceding claims, characterized in that the coating device ( 11 ) in the area of at least one markings ( 2 a, 2 b) is interrupted and / or broken. 6. The device according to at least one of the preceding claims, characterized in that at least one marking ( 2 a, 2 b) from a plurality of microscopic inclusions in the carrier material ( 12 ), the coating or vapor deposition ( 11 ) and / or the protective layer ( 10 ) exists. 7. The device according to at least one of the preceding claims, characterized in that the Trägerma material ( 12 ) has a metallic coating ( 11 ). 8. The device according to at least one of the preceding claims, characterized in that on the carrier material ( 12 ) and / or the coating or vapor deposition ( 11 ) a coated film ( 11 ), in particular a film with a hologram is attached. 9. The device according to at least one of the preceding claims, characterized in that at least one marking ( 2 a, 2 b) in the outer edge region of the information carrier ( 1 ) is attached. 10. The device according to at least one of the preceding claims for a visual aid with optical or uncut glasses, characterized in that at least on a partial surface of the glasses ( 1 ) a plurality of preferably uniformly distributed markings in the coating or vapor deposition ( 11 ) of the glasses ( 1 ) is arranged. 11. The device according to claim 10, characterized in that the markings consist of Kreuz- or Schlitzmu ster ( 2 c, 2 d). 12. A method for producing devices from a coated or vapor-coated carrier material according to claim 1, characterized in that with a laser ( 20 ) at least in a partial area of the information carrier, wafer, microchips, the viewing device or visual aid ( 1 ) point, lines - and / or surface markers transparen te (2 a, 2 b) are mounted. 13. The method according to claim 12, characterized in that the laser ( 20 ) is a pulse laser ( 20 ), the laser pulses ( 19 ) are focused or scattered by lenses ( 21 ), and by a movable scanner mirror ( 23 ) the information carrier, the viewing device or visual aid ( 1 ) is deflected, the shape of the markings ( 2 a, 2 b) being determined by the movement of the scanner mirror ( 23 ). 14. The method according to claim 12, characterized in that the laser ( 20 ) is a continuous wave laser whose laser beams ( 19 ) are focused or scattered by lenses ( 21 ), and by a movable scanner mirror ( 23 ) on the information carrier, the viewing device or visual aid ( 1 ) is deflected, the shape of the markings ( 2 a, 2 b) being determined by the movement of the scanner mirror ( 23 ). 15. The method at least one of claims 12 to 14, characterized in that the laser beam ( 19 ) between the laser ( 20 ) and the information carrier, the viewing device or visual aid ( 1 ) through a mask ( 22 ), in particular a programmable liquid crystal mask ( 22nd ) passes through, the mask ( 22 ) influencing the direction, coloring and / or another property of the laser beam ( 19 ), so that the laser beam ( 19 ) contains different information in a marking ( 2 a, 2 b) of the information carrier, attaches the viewing device or visual aid ( 1 ).