NL8700766A - METHOD FOR THE PRESERVATION OF SHEET OR PAPER PAPER AND LIQUID USED THEREIN AND DEVICE FOR EXPORTING THEREOF - Google Patents

Description

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Title: Method for preserving sheet or web-shaped paper as well as liquid for use therein and device for carrying it out.

The invention relates to a method of preserving sheet or web-shaped paper, wherein the paper is treated over its entire thickness with a solution of a deacidification agent in an organic solvent or a mixture of organic solvents and is dried.

Such a method is known from U.S. Pat. No. 3,676,182. The aim of this known treatment is to neutralize the acidic components present in the paper and thereby make the paper more resistant to long-term storage in archives.

The use of an organic liquid medium instead of an aqueous medium has the advantage that faster drying can be achieved, while the contact time with the printing present on the paper can be kept so short that the latter does not suffer any visible damage as a result. of the treatment performed.

US patent 3,939,091 also discloses a liquid mixture based on organic solvents, which is intended for deacidifying paper.

In that known mixture, methoxymagnesium methyl carbonate, which is referred to there as methyl magnesium carbonate, is used as a substance which effects the deacidification or, in other words, provides an alkaline component.

A simple and efficient method has now been found to not only deacidify sheet or web-shaped paper, but to simultaneously strengthen the fiber structure of the paper, thereby achieving better overall preservation.

The invention is therefore characterized in that when carrying out the 870076 '-2- described in the preamble

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A solution is used which also contains a polymeric reinforcing agent for the paper in the dissolved state.

Thus, no additional treatment step is performed compared to the prior art 5, since the deacidification and firming take place in a single treatment. The present method is particularly suitable for the mass preservation of archive and library material, which threatens to be lost forever without timely, appropriate treatment.

Suitable polymeric reinforcing agents for use in the present solution are per se known adhesives for cellulose fiber materials or derivatives thereof. Cellulose or starch ethers such as hydroxyethyl cellulose and preferably hydroxypropyl cellulose can be mentioned as suitable reinforcing agents. The latter product is marketed in the form of fine grains by Hercules Powder Company under the name Klucel L. The amount in which the firming agent is used is usually 5-40 g, preferably 10-30 g per liter of solution. .

It is essential that the polymeric reinforcing agent is present in the solution in the dissolved state. This is necessary in order to achieve an even distribution of the reinforcing agent over the entire thickness of the paper to be treated. If the reinforcing agent were not dissolved, it would only be deposited on and near the paper surface, thus could not penetrate into the interior of the paper material, thereby causing more damage than benefit to the already very fragile material to be preserved. Thus, it is essential when selecting the polymeric reinforcing agent 35 and the solvent or solvents therefor, as well as when choosing the other ingredients and the 6 / y i o v • x • t.

-3- always keep in mind that the final preservative liquid must be a real solution.

Preferably, a suitable substance is also dissolved in the treatment solution 5 to prevent degradation or attack of the polymeric reinforcing agent.

As such substances can be mentioned bactericides and fungicides, as well as substances that prevent enzymatic degradation of the firming agent. Thymol is an example of a suitable substance that inhibits the development of bacteria and fungi when a cellulose ether is used as a polymeric reinforcing agent.

As a rule, only a very small amount of such a substance against degradation or attack is added.

Suitable examples of deacidification agents to be used in the present solution can be found in previously discussed U.S. Pat. Nos. 3,676,182 and 3,939,091. Inorganic deacidification agents are preferably used, and the following compounds may be mentioned as examples: magnesium methoxide, magnesium methyl carbonate, magnesium ethyl carbonate, methoxy magnesium methyl carbonate, and ethoxy magnesium ethyl carbonate. Methoxymagnesium methylcarbonate in particular has proved particularly suitable. The deacidification agent is usually used in an amount of 0.7-2.5 g, preferably 1.0-2.0 g per liter of solution. Such a concentration is sufficient to adjust the pH of the paper to a value of 8-8.5 and further to provide a sufficient additional amount to ensure long-lasting buffering at that pH. Some of the above inorganic deacidification agents are commercially available, usually in the form of a solution in a lower alcohol or in a mixture of a lower alcohol and a chlorofluorocarbon.

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Choosing a suitable organic solvent or mixture of organic solvents is very important, since, as mentioned, all components of the preservative liquid must dissolve therein. Methanol is a particularly suitable solvent, either alone or even better in combination with one or more other solvents, which can for instance be chosen from aliphatic or aromatic hydrocarbons, halogenated hydrocarbons, ethers, esters and ketones. Very suitable has been found to be a mixture of a predominant amount of methanol and a minor amount of acetone, especially a mixture of methanol and acetone in a volume ratio of about 4/1.

The present preservative liquid can be prepared in a simple manner by combining the various components in the appropriate amounts and optionally stirring under gentle heating until the solids have dissolved. The deacidification agent is usually added in the form of a concentrated solution in an organic solvent. If necessary, the resulting solution can still be filtered to remove any undissolved residues. The preservative liquid can also be prepared in the form of a concentrate, which is diluted before use. Both the concentrate and the ready-to-use preservative liquid are very stable and can be stored for a long time.

A recipe of a ready-to-use preservative with which excellent results were obtained has the following composition: - methanol 78 vol.% - acetone 20 vol.% - methoxymagnesium methyl carbonate (0.5 M in methanol) 2 vol.% 35 - Klucel L ( hydroxypropyl cellulose from Hercules Powder Co.) 2 wt% - thymol 0.2 wt%.

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According to a particularly efficient technique, the preservative liquid is applied to the sheet or web-shaped paper by spraying. Preferably, the paper is supported by a liquid-permeable carrier and the liquid is sprayed on the free paper surface, while a powerful suction effect is exerted via the supporting carrier, whereby the paper is uniformly penetrated throughout the entire thickness and also at least 10 is dried in part. Further drying can then be effected by suction for a longer period of time or by using any mild drying technique, for example with a warm air flow. The amount of preservative to be applied depends on various factors, such as the nature, condition and thickness of the paper. On average, however, it has been found that excellent preservation can be achieved with an amount of preservative liquid of 0.2-0.5 g per dm2 of paper surface.

The invention also relates to a device in which the above-described preservation of sheet or web-shaped paper can be carried out.

This device is characterized in that it comprises a treatment chamber, which is provided with a paper inlet in one side wall in one side wall and a paper outlet in the opposite side wall, with a suction tray between the inlet and outlet. is placed, which contains a large number of perforations at the top, wherein a liquid-permeable conveyor belt is provided, which can move around the suction box and is situated against the top thereof, and wherein in the upper part of the treatment chamber, near the inlet, at least one liquid sprayer is present.

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The actual treatment chamber can be constructed of aluminum profiles with aluminum plating and with one side wall in the transport direction consisting of a transparent material, such as polycarbonate sheet, in order to be able to follow the progress of the treatment.

The treatment chamber can be superstructured on a substructure and the latter can be used to house the operating and auxiliary equipment, such as an electronically-pneumatically controlled switch box, a storage tank for the preservative liquid, a pressure bottle with propellant (eg. CO2), a compressor, an exhaust fan, a motor, the necessary pipes and fittings etc.

There is a slot on the input side of the treatment chamber for inserting the paper to be treated. A probe may be provided at that input, which transmits a signal when paper is introduced, whereby the liquid sprayer (s) comes into operation (s). At the end of the paper insertion, the same probe can again stop the spraying of liquid via a signal.

Probes may also be provided at the input which record the thickness, nature and / or dimensions of the imported paper and transmit signals as a function thereof, thereby increasing the speed of the conveyor belt, the amount of spray liquid and / or the size of the area to be sprayed.

Via the insertion slot, the paper lands on a conveyor belt, which can move around a suction box in the bottom of the treatment chamber and thereby lies against the perforated top of the suction box.

In the upper part of the treatment chamber, near the inlet, there is at least one liquid nozzle for finely atomizing the preservative liquid in the direction of the conveyor belt. Usually ** * γ * - · · '«-7- two liquid nozzles are provided and the liquid nozzle (s) is (are) preferably adjustable in both height and width in order to precisely control the area to be sprayed . This can be done automatically 5 with the aid of a push-button at the input, as indicated earlier.

The suction box is for instance provided in a side wall in the direction of transport with a number of suction mouths, for example three, which ensure good suction and extraction throughout the transport through the treatment chamber. As a result, the preservative liquid is evenly distributed over the entire thickness of the paper to be treated, and the paper is also at least partially and usually even completely dried. All this can be precisely controlled by the expert in a fairly simple manner. The extracted vapors can be collected and processed further.

The conveyor belt can be an endless woven belt. In any case, it must be liquid-permeable and preferably it is of the self-discharging type, which means that the fine openings present in the thickness direction of that belt are larger on the side facing the top of the suction tray than on the paper transport side. thereby preventing that tape from becoming easily clogged by solid material from the aspirated preservative.

The size of the treatment chamber in the conveying direction is preferably chosen such that the distance to be traversed is sufficient to dry the treated paper. Optionally, however, in the part of the treatment chamber located closer to the discharge, means may be provided for carrying out an additional thermal drying treatment. As such means, facilities for a warm air flow or for infrared radiation can be mentioned.

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Finally, the treatment chamber is also provided with a discharge slot at the end of the conveyor belt. The treated paper discharged through that slot can then be collected in a collection bin.

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Claims (27)

Method for the preservation of sheet or web-shaped paper, wherein the paper is treated over its entire thickness with a solution of a deacidifying agent in an organic solvent or a mixture of 5 organic solvents and dried, characterized in that a solution is used which also contains a polymeric reinforcing agent for the paper in the dissolved state. 2. A method according to claim 1, characterized in that the polymeric reinforcing agent is a cellulose or starch ether. A method according to claim 2, characterized in that the polymeric reinforcing agent is hydroxypropyl cellulose. Method according to claims 1-3, characterized in that the polymeric reinforcing agent is present in an amount of 10-30 g per liter of solution. 5. A method according to claims 1-4, characterized in that a substance is also dissolved in the solution which prevents degradation or attack of the polymeric reinforcing agent. 6 V £; 7 * -12- * which transmit signals to control the belt speed, the amount of spray liquid and / or the size of the area to be sprayed, depending on the thickness, nature and / or dimensions of the preservation paper. 6. Process according to claims 1-5, characterized in that the deacidification agent is methoxymagnesium methyl carbonate. Process according to claims 1-6, characterized in that the deacidification agent is present in an amount of 1.0-2.0 g per liter of solution. 8. Process according to claims 1-7, characterized in that the solution is a solution in a mixture of organic solvents containing a predominant amount of f-V-10-methanol and a minor amount of acetone. Process according to claim 8, characterized in that the mixture of organic solvents contains methanol and acetone in a volume ratio of about 4/1. 10. A method according to claims 1-9, characterized in that the solution is applied to the sheet or web-shaped paper by spraying. Method according to claim 10, characterized in that the solution is sprayed on one surface of the sheet or web-like paper and that a strong suction effect is exerted on the other surface, in order to dissipate the solution throughout the entire thickness. the paper and at least partially dry the treated paper. 12. Paper preservative liquid, which liquid comprises a solution of an deacidification agent in an organic solvent or a mixture of organic solvents, characterized in that a polymeric paper stabilizer in the dissolved state is also present in the solution. Preservative liquid according to claim 12, characterized in that the polymeric reinforcing agent is a cellulose or starch ether. Preservative liquid according to claim 13, characterized in that the polymeric reinforcing agent is hydroxypropyl cellulose. Preservative liquid according to claims 12-14, characterized in that the polymeric reinforcing agent is present in an amount of 10-30 g per liter of solution. Preservative liquid according to claims 12-15, characterized in that a substance is also dissolved in the solution which prevents degradation or attack of the polymeric reinforcing agent. Preservative liquid according to claims 12-16, characterized in that the deacidification agent is methoxymagnesium-% - (t) (-11-methyl carbonate). Preservative liquid according to claims 12-17, characterized in that the deacidification agent is present in an amount of 1.0-2.0 g per liter of solution. Preservative liquid according to claims 12-18, characterized in that the solution is a solution in a mixture of organic solvents containing a predominant amount of methanol and a minor amount of acetone. Preservative liquid according to claim 19, characterized in that the mixture of organic solvents contains methanol and acetone in a volume ratio of about 4/1. 21. Liquid concentrate from which a preserving liquid according to claims 12-20 can be obtained by adding an organic solvent or a mixture of organic solvents. 22. Device for preserving sheet or web-shaped paper according to the method of claim 1, characterized in that the device comprises a treatment chamber, which is provided with a paper inlet in the lower part in one side wall and in the opposite side wall is provided with a drain for paper, wherein between the inlet and outlet a suction box is placed, which at the top contains a large number of perforations, whereby a liquid-permeable conveyor belt is provided, which can move around the suction box and against the top is located therefrom, and in which at least one liquid sprayer is present in the upper part of the treatment chamber, near the inlet. Device as claimed in claim 22, characterized in that a paper feed sensor is provided at the inlet, which sensor transmits a signal for activating the liquid sprayer (s). 24. Device as claimed in claim 23, characterized in that probes are also provided at the input Device according to claims 22-24, characterized in that the liquid nozzle (s) is (are) adjustable in height as well as in width. An apparatus according to claims 22-25, characterized in that the liquid-permeable conveyor belt 10 is provided with fine openings which are larger on the side facing the top of the suction box than on the side for the paper transport. 27. Device according to claims 22-26, characterized in that in the part of the treatment chamber 15 which is closer to the drain, means are still provided for carrying out an additional thermal drying treatment. h ƒ | i U / b v