DE3409342A1 - Method and device for producing optical substrates having reversible photochromic properties - Google Patents

Abstract

The device comprises an evacuatable recipient (1), which can be sealed in a gas-tight fashion, can be provided with an atmosphere of inert gas, and in which above a carrier (2) for the optical substrates (3) to be coated and distanced therefrom two sputter sources (30 and 40) or one sputter source and one electron beam gun are arranged, preferably with an adjustable inclination with respect to one another, in such a way that the paths of the atoms knocked off the cathode material plates (33 and 43) cross with respect to the substrate to be coated before they are deposited. It is now possible by means of these measures subsequently to apply an aluminium oxide/silicon dioxide compound together with a substance having reversible photochromic properties to an optical substrate and thus subsequently to provide the latter with the reversible photochromic properties. <IMAGE>

Description

Title:

Method and device for the production of optical substrates with reversible photochromic properties Procedure and establishment for the production of optical substrates with reversible photochromic properties The present invention relates to a method for producing optical substrates, such as spectacle glasses, lenses and the like, with reversible photochromic properties.

If phototropism is the spontaneous and reversible transition of a Understood between two states of different absorption spectra, so photochromism is a special case in which one of the states is visible light absorbed. Photochromic materials thus have the property that changes its color when exposed to light and that this change is reversible is. Such properties have, for example, silver halogenated Glasses, whose scope of so-called automatic sunglasses extends to data storage and its use is becoming increasingly important.

However, this is a major disadvantage with such optical glasses to see that the silver halogens causing the reversible photochromic effects, for example silver halides or silver halides, already introduced into the glass melt and have to be resolved there, which leads to relatively highly temperature-sensitive objects which is only partially refined, for example with an anti-reflective coating can be provided. In addition, the degree of absorption cannot easily be varied will.

In particular, however, optical substrates made of plastic are also included reversible photochromic properties cannot be produced in this way.

It is therefore the object of the present invention a Process for the production of optical substrates with reversible photochromic properties to create that allows these reversible photochromic properties to be achieved to produce an optical substrate already available as a semi-finished or finished product.

This is now achieved according to the invention in that the substrates in a noble gas atmosphere by simultaneous or unequal sputtering of a Alumina-silica compound as well as a substance with reversible photochromic Properties are coated, whereby the deposited on the substrate Substance with reversible photochromic properties in the precipitating Layer from the A1202 - SiO2 - connection is embedded.

"Sputtering" is a well-known atomization technique understood for the production of thin layers. With such a known plasma or cathode sputtering are carried out in a dilute noble gas atmosphere by the gas discharge resulting positive Ions atoms from a cathode called a Sputter source beaten. These atoms are deposited on the surface of thin dielectrics and form a metal film on it.

It has now been found that this sputtering, an aluminum oxide-silicon dioxide compound, is suitable together with a substance with reversible photochromic properties afterwards to apply to an optical substrate and thus subsequently the reversible to convey photochromic properties. This opens up in the application of such optical substrates new dimensions. Besides being practical now from substrate to substrate the degree of absorption through appropriate qualitative and quantitative halogen-containing coating can vary in place and the substrate can be paid in advance and post-payment practically as desired, it is now possible, too Plastic substrates, in particular plastic eyeglass lenses, for example from Polydiethyleneglycoldiallylcarbonaten, to equip photochromically, in addition another comparative the plastic is relatively hard, scratch-resistant Surface is created.

In order to achieve good photochromic reversibility, it is advantageous to if silver halides or silver halides are used as a substance with reversible photochromic properties Silver halides can be used.

To create the desired layers with reversible photochromic According to the invention, it is, for example, properties on the optical substrates possible that the alumina-silica compound as well as the substance with reversible photochromic properties common to a cathode of a common Sputtering source or that the A1202 - SiO2 - compound from the Cathode of a first sputter source and the substance with reversible photochromic Properties, possibly in a combination of aluminum oxide-silicon dioxide, be sputtered from the cathode of a second sputtering source.

Here it is to optimize the desired properties from of great importance that those of the different cathodes of the two sputter sources At the same time sputtering, atoms chipped off before they are deposited on the surface of the optical substrate to be coated are mixed.

Another essential aspect of the invention is also included therein see that optical substrates are made of both glass and plastic in the aforementioned Way can be coated.

Accordingly, the present invention further relates to an optical one Substrate such as spectacle lens, lens and the like.

made of glass or plastic, produced according to the aforementioned, according to the invention Process that is characterized by a coating of an aluminum oxide-silicon dioxide compound with a substance with reversible photochromic properties.

In addition, the present invention relates to a device for Implementation of the method according to the invention, which is characterized by that in a gas-tight sealable, evacuable and with an atmosphere of inert gas in the vicinity of the recipient below or above a carrier for the optical substrates to be coated and at a distance from this at least one sputter source is arranged, the cathode of which is one for sputtering certain material plate made of an alumina-silica compound and a Bears substance with reversible photochromic properties.

This device is then preferably designed so that in the recipient arranged two sputter sources or a sputter source and an electron beam gun are, with a preferably adjustable inclination to each other, such that the paths of the atoms knocked off from the cathode material plates to the to be coated Cross the substrate before they are deposited, with the one cathode material plate made of an aluminum oxide-silicon dioxide compound and the other cathode material plate at least in part of a substance with reversible photochromic properties consists.

Such a device then allows an optimal control of the atomization and coating process by intensifying the atomization process on the one or the other cathode and thus change the proportional composition of the layer deposited on the substrate.

An example embodiment of the device according to the invention to carry out the method according to the invention is shown below with reference to the drawing, which, in a very schematic representation, is one for the method according to the invention shows suitable recipients, explained in more detail.

The example device shown for production, for example of lenses with reversible photochromic properties here includes one so-called recipient 1, in which plate-shaped carrier 2 each to accommodate some Glasses 3 to be coated are located. These carriers 2 are rotatably supported by each a shaft 4 on a table 5 rotating with a central shaft 6. About transmission means a between the Central shaft 6 and the carrier shafts 4 is thereby a planetary drive is formed, as can easily be seen in the illustration can. The central shaft 6 is driven by a motor 7, which motor Via a suitable supply line 7 ′ to a central control unit 50 of the device communicates. Such arrangements are known per se.

With the rotation of the central shaft 6, those with the planetary carriers then arrive 2 circumferential glasses 3 from the preheating position on the right in the illustration below the heater 11 in a left-side coating position under the opening 9 ' a stationary or adjustable diaphragm 9 as described in more detail below is. The heater 11 is also connected to the central one via a feed and control line Control unit 50 connected.

The recipient 1 is via a suction line connected to a pump 12 13 evacuated and via a pressure line 15 and a reducing valve 14 with a Source of inert gas connected to the recipient 1 with an atmosphere of this To provide gas. Even central control of the Control unit 50 take place via corresponding feed lines 12 'and 14'.

To now the glasses 3 or other optical substrates on the planet carriers 2 according to the invention with a layer made of an aluminum oxide-silicon dioxide compound and to provide a substance with reversible photochromic properties in the recipient 1 above the diaphragm 9 and here two sputtering sources are distanced from it 30 and 40 are provided, the sputter source 30, in the illustration on the left, whose Structure with a cathode 32 and an anode 31 surrounding the former can be seen. The anode and cathode of both sputter sources 30 and 40 are connected to an excitation circuit 20, which in turn is connected to the central control unit via a supply line 20 ' 50 is in functional connection.

The sputter sources 30 and 40 are commercially available and can be high-frequency or operated with direct current.

Like the sputter source 40 on the right in the illustration in more detail shows, this is - as well the other sputter source 30 - pivotable over to two sides in the direction of the double arrow shown a carrier 44 is supported on the recipient 1. This enables the two sputtering sources 30 and 40 are brought into an adjustable inclination to one another, such that the radiation paths cross each other in front of the aperture 9 'according to the illustration, as is explained in more detail below.

Each of the named cathodes of the two sputter sources 30 and 40 carries now a material plate 33 or 43 intended for atomization, the one here Plate made of an alumina-silica compound and the other plate made of such a compound with a substance with reversible photochromic properties consists.

For the implementation of the method according to the invention, the recipient 1 evacuated after its loading and, if necessary, for cleaning the ones to be coated Surfaces of the substrates 3 a so-called sputter etching by means of high frequency discharge made for what the additional panel 10 is provided. This The process is known to me and is not essential to the invention, which is why we are referring to a detailed description can be dispensed with. For example, here too still other cleaning techniques can be used, such as that of the same Applicant in her CH-AS No. 632 892 G described infrared radiation.

To initiate and maintain the sputter discharge is then admitted an inert gas up to a pressure of, for example, a few hundredths of Torr.

Now can, according to the control of the excitation circuit 20, at the same time and time-shifted, the A1202-SiO2 connection from the cathode the one sputtering source and the substance with reversible photochromic properties, optionally in a compound of alumina-silica, from the cathode the other sputter source are atomized.

As can be easily seen, the above allows here Structure of the device according to the invention an optimal control of the atomization and coating process by intensifying the atomization process on the one or the other cathode and thus change the proportional composition of the layer deposited on the substrate.

Layers of approx. 800 to 1,000 nm (nanometers) are advantageous. whose chemical and mechanical properties correspond to those of glass.

As can be seen further, here too, with the help of the existing and further diaphragms receive the usual gradations in the layer thickness on the substrate will.

The method according to the invention can also be used with a series perform other modified arrangements. In principle it is already possible a coating according to the invention in such a way achieve that Alumina-silica compound as well as the substance with reversible photochromic Properties sputtered together from a cathode of a common sputtering source will.

The aluminum oxide-silicon dioxide compound can also be used by means of Electrode gun are released and furthermore the arrangement can also be so be that the substrates are above the sputtering sources and the latter after atomize above.

In any case, a method for production results from the above optical substrates with reversible photochromic properties, as well as a substrate according to this procedure and a device for carrying out this procedure, after which it is now possible to use an alumina-silica compound together a substance with reversible photochromic properties afterwards To apply optical substrate and this so subsequently the reversible photochromic To convey properties. Here, as can be seen from the above can now be practically of Substrate to substrate or from Batch to batch of the degree of absorption through appropriate qualitative and quantitative halogen-containing coating vary in place and the substrate is practically arbitrary pre- and post-compensation. It is now also possible to use plastic substrates, in particular ophthalmic lenses made of plastic, for example made of polydiethylene glycol diallyl carbonates, to equip photochromically, and also a comparative to the plastic relatively hard, scratch-resistant surface is created.

Claims (10)

Claims (»1. Process for the production of optical substrates, such as spectacle glasses, lenses and the like, with reversible photochromic properties, characterized in that the substrates in a noble gas atmosphere by simultaneous or -mismatched sputtering of an alumina-silica compound as well coated with a substance with reversible photochromic properties, whereby the substance deposited on the substrate with reversible photochromic Properties in the deposited layer made of the A1202 - SiO2 compound is embedded. 2. The method according to claim 1, characterized in that the substance with reversible photochromic properties silver halides or silver halides be used. 3. The method according to claim 1 or 2, characterized in that the alumina-silica Connection as well as the substance with reversible photochromic properties shared by a cathode one common sputter source are atomized. 4. The method according to claim 1 oder'2, characterized in that the A1202 SiOi compound from the cathode of a first sputtering source and the Substance with reversible photochromic properties, optionally in a Compound of alumina-silica, from the cathode of a second sputtering source be atomized. 5. The method according to claim 4, characterized in that the of the different cathodes of the two sputtering sources with simultaneous sputtering adhickened atoms before their deposition on the surface of the to be coated optical substrate are mixed. 6. The method according to claim 1, characterized in that optical Substrates made of glass or plastic are coated. 7. Optical substrate such as spectacle lens, lens and the like. made of glass or plastic, produced by the method according to a or more of the preceding Claims 1 to 6, characterized by a coating from an alumina-silica compound with a substance with reversible photochromic properties. 8. Device for performing the method according to claim 1, characterized characterized in that in a gastight sealable, evacuable and with a An inert gas atmosphere can be provided below or above a recipient (1) Carrier (2) for the optical substrates to be coated and spaced from this at least one sputter source (30; 40) is arranged, the cathode (32) of which is one for Sputter certain material plate (33; 43) from an aluminum oxide-silicon dioxide compound and a substance with reversible photochromic properties. 9. Device according to claim 8, characterized. that in the recipient (1) two sputter sources (30 and 40) or one sputter source and an electron gun are arranged, with a preferably adjustable Inclination to each other, such that the paths of the cathode material plates (33 or 43) separated atoms towards the substrate to be coated before they are deposited cross. 10. Device according to claim 9, characterized in that the a cathode material plate (33) made of an alumina-silica compound and the other cathode material plate (43) at least partially made of a substance with reversible photochromic properties.