LU87571A1 - OPTICALLY READABLE INFORMATION RECORDING MEDIUM - Google Patents

Description

Media for reading optical information

The present invention relates to a medium for recording information with optical reading.

Optical-readable recording media are already widely used for the dissemination and archiving of audio, video and computer information. Such media produced in the form of discs are known under the names of "audio CD", "video CD" and "CD rom".

Generally, the information is coded in such a way that it is presented in the form of a microrelief produced on a surface.

It should be noted that, in the present description, we will use the term "information" without explicitly specifying each time that this information is actually coded. This simplified terminology is commonly used although it is formally imprecise.

The information is generally in the form of a microrelief produced either on the surface of a transparent thermoplastic substrate or on the surface of a layer of transparent resin secured to a transparent sheet of glass or plastic.

The surface containing the information is covered with a thin reflective metallic layer and then with a protective layer possibly including inscriptions.

Reading is carried out by means of a laser beam focused on the surface containing the information. The variations in reflected light caused by microrelief are detected and then transformed into electrical signals by one or more photodiodes.

Such optical reading recording media do not have optimal storage qualities, especially in difficult environments, for example in a hot and humid environment. The constituent elements of these media can be altered and lead to the loss of the characteristics necessary for reading the information; the thermoplastic substrate or the resin layer containing the information can be altered, for example by mechanical deformations, the surface carrying the information can deteriorate, the metal layer can lose its light reflection properties.

Other types of recording media have been made to overcome some of these drawbacks. The microrelief carrying the information is then produced directly on a transparent substrate made of chemically tempered glass. The other constituent elements, such as the metal layer and the protective layer, are of the same type as for the recording media described above.

The glassy material used as a transparent substrate makes it possible to obtain greater longevity and better mechanical properties.

However, this type of medium has the disadvantage of not being well suited to making multiple copies of good quality and at low cost.

The subject of the present invention is an optical reading information recording medium ensuring the longevity and durability of the information recorded even in a difficult environment and capable of being reproduced easily and at low cost.

The present invention relates to a data recording medium for optical reading, characterized in that it comprises a self-supporting metal sheet, one side of which contains the information, this side being secured to a transparent sheet.

It is surprising that a self-supporting metal sheet associated with a second sheet can be used in a recording medium while it is known that the weight of a recording medium must be low so as not to overload the drive mechanisms of the reading system.

The self-supporting nature of the metal sheet ensures its mechanical stability. In addition, since the information is recorded directly in the metal, it is unlikely to deteriorate.

We thus obtain a durable recording medium and allowing an increased longevity of the recorded information.

The structure of the recording medium is simple and has few constituent elements since the metal sheet ensures both the recording of information and the reflection of the reading beam.

This recording medium is well suited for making multiple copies; in fact, the self-supporting metal sheet can be easily reproduced in series by the electrolytic duplication technique from a master metal sheet. This master metallic sheet constitutes the cathode of an electrolysis tank containing a salt of the metal to be deposited on this cathode. The electric current applied to the system migrates the metal ions to the cathode where they are reduced. The metal which is deposited on the microrelief of the master metallic sheet therefore creates the negative of the original. By successive electrolyses, it is possible to reproduce the original microreRef.

Provided that the electrolysis conditions are controlled, this technique makes it possible to easily obtain good quality copies.

In addition, it is always possible to recover the information contained on one side of the metal sheet even in the event of deterioration of the transparent sheet or separation from it and to form a new recording medium.

Preferably, the metal sheet is made entirely of a metal such as gold, silver or nickel or an alloy of these metals.

You can also use a sheet made of a less noble metal or alloy and a gold or silver coating that carries the information.

These metals or their alloys are particularly suitable for ensuring the longevity and durability of the recording medium because they are stable and relatively inert. If necessary, they can optionally be protected from chemical phenomena, such as atmospheric oxidation, by a protective layer.

In addition, these metals or their alloys have the advantage of forming a highly reflective surface.

They also allow easy duplication of the metal sheet by a conventional electrolytic method.

The transparent sheet may be formed from plastic, but preferably a transparent glass sheet will be chosen.

Properties specific to vitreous material; transparency, chemical stability and inalterability are particularly suitable for ensuring the longevity and durability of the recording medium.

The vitreous material can easily be obtained with a high level of flatness and a very regular thickness. These characteristics are necessary so as not to disturb the precise pointing of the reading beam on a given site.

In addition, the attachment of a rigid glass sheet to the metal sheet makes it possible to use a very thin self-supporting metal sheet.

Preferably, the transparent sheet is made of chemically tempered glass.

In addition to the qualities of chemical stability, resistance to aging, transparency, inalterability and easy obtaining of a high level of flatness specific to vitreous material, chemically toughened glass has improved solidity and breaking strength. .

These properties give the recording medium an increased solidity and allow it to withstand without damage the stresses which result from the high rotational speeds obtained by the drive mechanisms of the reading system and reduce the risk of vibration detrimental to the mechanisms. drive.

In addition, the chemical toughening treatment does not alter the flatness of the glass or its optical properties.

According to a preferred embodiment, the transparent sheet is secured to the self-supporting metal sheet by means of a transparent adhesive

The role of this adhesive is to ensure a lasting connection between the self-supporting metal sheet and the transparent sheet while maintaining the flatness of the assembly. Π also protects the recorded side of the metal sheet.

This adhesive must have good transparency properties. Its refractive index must be as close as possible to the refractive index of the material constituting the transparent sheet so as not to disturb the light transmission through the recording medium.

This adhesive is preferably a liquid material at the time of its use and polymerizable in situ, crosslinkable by radiation, for example by ultraviolet radiation. This type of low viscosity material perfectly matches the microrelief of the metallic sheet and can form a very hard layer. thin, for example less than 20 μm Among this type of material, there is easily an adhesive which fixes the metal sheet-transparent sheet unit together at room temperature or low. There is then no risk of deforming the metal sheet containing the information or of creating thermal stresses in the formed assembly.

According to another embodiment, the transparent sheet is secured to the self-supporting metal sheet by a transparent thermoplastic film

This transparent thermoplastic film must be chosen as a function of its ability to make the connection under temperature and pressure conditions such that they do not alter the metal sheet containing the information.

Preferably, the self-supporting metal sheet has a thickness of between 0.1 and 0.4 mm.

This thickness range makes it possible to satisfy selection criteria that are difficult to reconcile.

The metal sheet must be thick enough to ensure self-supporting character and mechanical stability.

On the other hand, the information recording medium of which it is a part must withstand mechanical stresses, and in particular at high rotational speeds. The recording medium should not be too heavy to avoid overloading the drive mechanisms of the playback system.

In addition, the time and cost of electrolytic duplication are dependent on the thickness of the metal sheet.

The thickness range mentioned above is an advantageous compromise making it possible to reconcile all these criteria.

Preferably, the transparent sheet has a thickness of less than 1.5mm, for example of the order of 1.2mm and preferably, the thickness of the transparent sheet-adhesive assembly is less than 1.5mm.

The recording medium comprising a transparent sheet of such a thickness has the advantage of being usable as an information recording medium readable by known and commercially available equipment.

Preferably, the information recording medium is in the form of a disc.

Certain preferred embodiments of the invention will now be described by way of example.

Example 1:

A self-supporting metal sheet, one side of which contains the information, is made of nickel. It comes in the form of a disc hollowed out at its center, with a thickness of 0.2mm and an outside diameter of 120mm. It is held in place by one or more positioning elements such as a centering element.

An adhesive is placed in the center of the face of the self-supporting metal sheet which contains the information.

This adhesive, crosslinkable by ultraviolet radiation, is formed from epoxyacrylate and a photoinitiator. It is deposited in an amount such that the final thickness of adhesive between the metal sheet and the transparent sheet will be of the order of 10 μm

We then approach the center of a transparent sheet, of the same shape and the same diameter as the metal sheet, from the center of the metal face covered by the adhesive. This transparent sheet is made of chemically tempered glass and has a thickness of 1.2mm. It is pressed against the adhesive from the center to the edges of the metal sheet in order to obtain a uniform spread of the adhesive.

The adhesive is then crosslinked by applying ultraviolet radiation through the transparent sheet.

In a variant of this example, the self-supporting metal sheet was made of silver-plated stainless steel on the surface and its thickness was 0.4 mm.

Example 2:

A self-supporting metal sheet, one side of which contains the information, is made of gold. It is in the form of a disc hollowed out at its center, 0.2 mm thick and with an outside diameter of 305 mm. It is held in place by one or more positioning elements such as a centering element.

The transparent adhesive, based on liquid polyurethane, is formed by mixing two components which polymerize at room temperature. This adhesive is deposited on the face of the metal sheet which contains the information.

The transparent sheet, of the same shape and diameter as the metal sheet, made of VHR chemically tempered glass, is approached from the face of the metal sheet covered by the adhesive. The whole is pressed to secure the transparent sheet to the metal sheet. After joining the assembly, the adhesive layer has a thickness of Opm.

Claims (9)

1. Optical reading information recording medium characterized in that it comprises a self-supporting metal sheet, one side of which contains the information, this side being secured to a transparent sheet. 2. Optical reading information recording medium according to claim 1, characterized in that the metal sheet consists of a metal such as gold, silver or nickel or an alloy of these metals . 3. Optical reading information recording medium according to one of claims 1 or 2, characterized in that the transparent sheet is made of glass. 4. Optical reading information recording medium according to claim 3, characterized in that the transparent sheet is made of chemically tempered glass. 5. Optical reading information recording medium according to one of claims 1 to 4, characterized in that said transparent sheet is secured to the self-supporting metal sheet by means of a transparent adhesive. 6. Optical reading information recording medium according to one of claims 1 to 4, characterized in that said transparent sheet is secured to the self-supporting metal sheet by a transparent thermoplastic film. 7. Optical reading information recording medium according to one of claims 1 to 6, characterized in that said self-supporting metal sheet has a thickness of between 0.1 and 0.4 mm. 8. Optical reading information recording medium according to one of claims 1 to 7, characterized in that said transparent sheet has a thickness of less than 1.5 mm. 9. Optical reading information recording medium according to one of claims 1 to 8, characterized in that it is in the form of a disc.