DE4222598A1 - Disposal of films carrying information by treatment with solvent - comprises removing information layer, followed by disposal or reuse of film - Google Patents

Abstract

In disposal of films used to carry information, to remove the information layer, the film is placed in a container with a solvent, and the treated film is thrown away or used again. The solvent is harmless to man. For vesicular and diazo films, and dry films the solvent dissolves the binder layer between the film support and the layer carrying the information, and contains an organic solvent, esp. acetone or more than 50% (more than 95%) of an alcohol, pref. ethanol. For Ag films, the solvent contains an oxidising agent, esp. more than 4% (more than 30%) of H2O2. The solvent also contains a salt, esp. where the negative acid residue forms with Ag a salt which pptes. from the solvent, esp. Cl. The pref. salt is NaCl, in amt. about half that of the oxidising agent. The salt and the oxidising agent are dissolved in deionised water, and the solvent pref. contains 4% of H2O2, 2% of NaCl and 94% of deionised water. ADVANTAGE - Data, esp. confidential information are removed quickly, and the film can be processed again by personnel without security rating.

Description

The invention relates to a method and associated solvents and Be Containers for the disposal of films, especially microfilms.

The disposal of film material of any kind and especially microfilms Confidential information is difficult because it is secure It must be ensured that the confidential information is not in the wrong hands device. The cutting of microfilms before waste recycling only brings partial remedy, because of the usual cutlet sizes for microfilms the high information density still related information remains.

So far, one has dealt with the incineration of those to be eliminated Microfilms. This is polluting because toxic gases are released and can therefore only be seen as a makeshift solution. The elimination of the Previously, information before disposal was also not possible because the Boil films with aggressive substances. That is dangerous and for unsuitable for use in offices.

The object of the invention is an easy and safe to use method and to create the associated tools with which to dispose of footage and can be recycled without the on it information in the wrong hands.  

The object is achieved by the method according to claim 1. The addition Auxiliary tools and solutions are the subject of further claims.

In the method according to the invention, the user is provided with a container Solvent sent into which the user places the film, the container sealed and sent back to a waste disposal company. In the container the information on the film is immediately observable for the user resolved, so that no special precautions regarding data protection must be taken. The further processing is then with standard procedures possible with non-security checked personnel.

It is particularly advantageous if the solvents used in the container for are harmless to people. According to the inventive idea of the sign It is also possible to use aggressive substances to solve the process zen when opening, inserting the film and closing again the necessary safety regulations are observed; but it can because of the Security aspect only to be unsatisfactory. Therefore, in an advantageous ten development of the invention for humans harmless solvents used.

Particular attention should be paid to the solvents that can be used. Four types of film have to be distinguished here, namely diazo films, Vesi Kularfilme, dry films and silver films, each on a different world length range of light is sensitive and ent in a different way is wrapped.

Diazo films, dry films and vesicular films are photosensitive Layers on a carrier film, mostly polyethylene terephthalate (PET) a binder applied. According to the invention, the binder is used for Destruction of information resolved. Organic solutions are suitable for this medium.

According to previous attempts, it is not clear whether the bandage will be released is really the dominant effect, but it has been shown that organic solvents, especially alcohols or acetone, are able destroy the information by detachment. Because of the harmlessness  To prefer ethyl alcohol for dry films and diazo films. With vesicular film ethyl alcohol showed no effect. Here, however, were good results achieved with acetone. It has been shown that even with diazo films with acetone there is good separation of the information. Thus stands for diazo films and vesicular films a common solvent, namely acetone.

There is also a common solvent for dry films and diazo films, namely alcohol. It is expected that an alcohol-acetone mixture a solvent can be created that can be used with all three types of film can be detected.

The information separation for diazo film and dry film takes place even with small ones Amounts of ethyl alcohol. But there is a drastic increase in speed Determine depending on the amount of alcohol. For removing the information tion within a day, more than 50% of the alcohol is appropriate. A drastic increase in speed at which within an hour or even if it dissolves in less time, with more than 80% alcohol enough. In particular, 95% is recommended to avoid long dissolution times avoid. The faster the information to be kept secret disappears, the more It is less likely that unauthorized persons will still be aware of the information can hold.

Up to now, the films have been boiled in aggressive acids to remove silver layers. According to a development of the invention, an oxidizing agent is used which oxidizes and removes the silver. H ₂ O ₂ can be used as an oxidizing agent, which is particularly advantageous because of its harmlessness. This should be mixed with deionized water instead of untreated water so that any unwanted ions present in the water do not reduce the effectiveness of the oxidizing agent.

Experiments have shown that even at a concentration of 4% oxidation medium a noticeably quick replacement of the information takes place. To speed Increased speed are used correspondingly higher proportions of the oxidizing agent bar. An increase in the amount of oxidizing agent even beyond 30% is considered viewed appropriately.  

The process can be further accelerated if a salt is added. The negative acid residue of the salt can then combine with the silver and so the silver z. B. by precipitation from the solution. The little what The solubility of silver chloride is known. Therefore should be used as salt for the precipitates a chloride can be used. Because of the harmlessness and the easy Availability NaCl is preferred.

Since the salt interacts with the hydrogen peroxide, the best conditions must be coordinated. With 4% H ₂ O ₂ in deionized water, an amount of 2% NaCl has proven to be an effective reaction accelerator. One will provide approximately half of the amount of oxidizing agent in the solvent as the amount of salt.

Particularly good results were achieved with a mixture of 4% H ₂ O ₂ , 2% NaCl and 94% deionized water. As explained above, the release rate of the information layer is increased by more hydrogen peroxide. The amount of salt should then be increased to the same extent in order to set optimal conditions.

According to the invention for carrying out the method and for the solution store medium, used a container. According to a training of Invention, the container should be transparent so that the user can check can when the information is peeled off so that the container with the film Can leave secrecy area.

For transport, it is expedient if the container can be closed securely. In addition, z. B. alcohol smells in the companies and authorities where the Disposal takes place, usually undesirable.

Volume changes can occur due to chemical reactions. Around To avoid bursting of the container should at least parts of the container be made of flexible material so that this volume change can be absorbed can be. It is particularly advantageous if parts are pre-selected on the container  are seen that can change the internal volume by a change in shape. Such parts can, for example, bellows or a raised floor section.

It is recommended that the container be made in one piece from a flexible plastic manufacture. Polyethylene is particularly suitable for this.

Further advantages also result from the description of execution examples in connection with the drawing and the claims. The drawing shows a container that are used in the inventive method can.

The figure shown shows a container 10 with a cover 15 that can be screwed onto the thread 13 . The container 10 is open at the top 14 . The lid 15 has a seal on its inside, against which the upper container edge 14 bears tightly in the screwed-on state.

When the container is delivered, it contains a solvent 18 . In order to be able to compensate for volume expansions in chemical reactions, 10 measures are provided on the container that can compensate for a change in volume. The measures in the illustrated exemplary embodiment include a container base 24 which is curved upwards in some areas and / or a bellows 22 at half the height of the container. The drawing further shows a microfilm 30 after immersion in the solvent 18 after the information has already been removed.

The bottle is made of clear polyethylene. The transparency allows the user to observe the detachment of the information layer because with control over when the transfer process has ended and the Film content is given to people involved in further processing can.

For diazo film and vesicular film, acetone can be used as a solvent in the container be filled in. The use of diazo film and dry film, however, has alcohol has proven to be particularly favorable.

The solvent for diazo and dry films is preferably a mixture of ethyl alcohol and water. It has been shown that ethyl alcohol fractions of  50% are sufficient to ensure that the information is replaced. For a It is advisable to remove the amount of alcohol more quickly if desired increase. It is preferable to work with more than 80% alcohol. For a very rapid removal of the layer, one will even choose proportions above 95% alcohol.

It is believed that the organic solvents mainly with the Binder react. Therefore, the numbers given are only indicative points because the different bandages used by different film manufacturers medium can be resolved with different reaction rates.

A mixture of 4% H ₂ O ₂ , 2% NaCl and 94% deionized water has shown good results for the removal of silver. The hydrogen peroxide serves as an oxidizing agent to bind the silver. With an increase in the amount of the oxidizing agent, the reaction rate can be increased.

The NaCl serves primarily as a reaction accelerator. It is believed that In an exchange reaction, silver chloride forms, which is in the solvent fills out. This removes the silver from the solution and the solution medium is practically unused for the detachment of further silver atoms Available. The optimal salinity depends on the amount of hydrogen su peroxyds. The amount of sodium chloride should be about half the amount Be hydrogen peroxide.

For the method according to the invention, the containers 10 are supplied with the corresponding solvent 18 . When in use, the lid is opened, the film to be disposed of is inserted and the lid is screwed on again. Due to the transparent wall, it can be observed how the information disappears on the film. When the peeling of the information is finished, the container can be reused, e.g. B. for recycling the carrier films are given. Conveniently, the containers with the film will be returned to the distributor of the container and the solvent filling, who will then feed the individual substances, such as solvents, films, layered substances and bottles, to the individual disposal branches or recycling.

The invention has a lot over the conventional method Advantages on. Particularly noteworthy is the harmlessness, which it too allowed to keep the container in the office or safe until secured is that all information has been replaced before being passed on. The procedure is easy to use, inexpensive to carry out and environmentally friendly because no pollutants get into the air by burning and the used Solvents are not aggressive.

Claims (25)

1. A method for disposing of films used as information carriers, characterized in that films to be destroyed are placed in a container with a solvent in order to detach the information layer, and that the treated film is sent for disposal or recycling. 2. The method according to claim 1, characterized in that that the solvent used is harmless to humans. 3. Solvent for vesicular and diazo films or dry films for Use in a method according to claim 1 or 2, characterized, that the solvent is the binder between the film support and the Infor mation-bearing layer dissolves.   4. Solvent according to claim 3, characterized in that it contains an organic solvent. 5. Solvent according to claim 4, characterized in that it contains acetone as an organic solvent. 6. Solvent according to claim 4, characterized in that as organic solvent alcohol, especially ethyl alcohol, contains. 7. Solvent according to claim 6, characterized in that it contains more than 50% alcohol. 8. Solvent according to claim 6 or 7, characterized in that it contains more than 80% alcohol. 9. Solvent according to claim 6 to 8, characterized in that it contains more than 95% alcohol. 10. Silver film solvent for use in a process according to claim 1 or 2, characterized in that it contains an oxidizing agent.   11. Solvent according to claim 10, characterized in that the oxidizing agent is H ₂ O ₂ . 12. Solvent according to claim 10 or 11, characterized in that it contains more than 4% oxidizing agent. 13. Solvent according to claim 10-12, characterized in that it contains more than 30% oxidizing agent. 14. Solvent according to claim 10-13, characterized in that it also contains a salt. 15. Solvent according to claim 14, characterized in that the negative acid residue of the salt with silver forms a salt, which from the Fills in solvent.   16. Solvent according to claim 14 or 15, characterized < that the negative acid residue contains chlorine. 17. Solvent according to claim 14-16, characterized in that the salt is NaCl. 18. Solvent according to claim 14 to 16, characterized in that that the salt is present in the solvent in an amount which is approximately that Is half the amount of the oxidizing agent. 19. Solvent according to claim 14 to 18, characterized in that the salt and the oxidizing agent are dissolved in deionized water. 20. Solvent according to claim 19, characterized in that the solvent contains 4% H ₂ O ₂ , 2% NaCl and 94% deionized water. 21. Container for performing the method according to claim 1 to 2, for receiving one of the solvents according to claim 3 to 20, characterized in that the container ( 10 ) is transparent. 22. A container according to claim 21, characterized in that the container ( 10 ) can be closed tightly. 23. A container according to claim 21 or 22, characterized in that the container ( 10 ) consists at least partially of an elastic material, so that volume changes occurring due to chemical reactions can be compensated for. 24. A container according to claim 23, characterized in that parts ( 22 , 24 ), such as bellows ( 22 ) are provided in the elastic material, which allow ei ne volume expansion. 25. Container according to one of claims 21 to 24, characterized in that the container ( 10 ) consists of polyethylene.