DE1047800B - Flat printing sheet - Google Patents

Description

GERMAN

There have been proposed planographic printing sheets in which the printing surface is initially composed of one soluble carboxymethyl cellulose compound, which is dried and treated with a aqueous solution is made insoluble, which is a copper, iron, aluminum or chromium compound or mixtures of a copper salt with some of the other compounds.

In the process of insolubilizing the coating forming the printing surface, it was important to include in the Overcoat a certain amount of clay or other suitable filler to the carboxymethyl cellulose binder to be added in a ratio of about 4: 1. These circumstances have been found favorable so the coating is given a sufficient degree of porosity to receive the insolubilizing solution and it as close as possible to all parts of the carboxymethyl ceuulose in the surface layer.

These coatings are subject to considerable difficulties in some cases, e.g. B. splinter during the bend or break under the blow of a type, peel off or tear apart, and the like Another difficulty that has sometimes been encountered is excessive absorbency of the printing layer and the underlying layers, so that the dampening materials tend to move in quickly from the surface to drain the underground zones and to let them dry with a short interruption of the pressure. All these Difficulties, as it turned out, hang in primarily on the proportion of filler that the coating must contain and on the thickness of the coating away. However, a certain proportion of filler in the printing surfaces made of carboxymethyl cellulose is desirable, to effect appropriate insolubility. However, it is with no special consideration for that Characteristic of the treatment to insolubilize, which is necessary due to the addition of binding agents, also known, that with these planographic printing layers certain filler contents were essential in order to achieve adequate acceptance for certain types of print images to be generated »especially those made by Carbon paper can be made. A significant reduction in the proportion of fillers, even if they are in others Respect is allowed, could not be allowed, because the capacity of the area to accept and for obtaining such printed images is adversely affected to below the level still acceptable in the trade would be. Similarly, attempts have led to the printing layer being thinner than it usually applied to make (e.g. in the order of a minimum value of 3.63 kg per ream), namely in essential for reasons of economy, to failure, because the coatings that come with a usual Paper manufacturing plant and according to customary

Applicant:

Columbia Ribbon and Carbon

Manufacturing Company, Inc.,

Glen Cove, N.Y. (V. St. A.)

Representative: Dr.-Ing. H. Negendank, patent attorney,
Hamburg 36, Neuer Wall 41

Claimed priority:
V. St. v. America September 16, 1953

Douglas A. Newman, Glen Cove, NY,
and Allan T. Schlotzhauer, Locust Valley, NY

(V. St. A.),
have been named as inventors

drive have been made, could not be used up evenly enough. In many cases the areas in which the oil-receiving

The base coat or undercoat showed through to remove unwelcome stains and tint of the base to cause printed copies.

According to the invention, therefore, planographic printing sheets contain a flexible base sheet with an image accepting surface and a single coating that does not weigh more than 2.72 kg per ream and is preferably less than 1.81 kg per ream. The coating thickness is here with the designation kg each Expressed ream and is based on a ream of SOO sheets 63.45 x 96.52 cm.

Thin coatings of approximately uniform thickness necessarily depend to a large extent on the smoothness and low porosity or permeability of the sub-layers or surfaces that receive these coatings. Heretofore, it has been an important consideration in the manufacture of planographic printing sheets that. an existing underlayer should be firmly bonded to the printing surface coating regardless of any considerations regarding the smoothness of the underlayer, and that, within certain limits, the degree of bond was generally judged to be somewhat improved as the smoothness decreased and the porosity and / or the permeability of the lower layer has been increased. However, it has been found that the

809 727/210

3 4

Influence of the strength of the adhesion at least as quickly - absorb and hold back occupied zones. For this

as the thickness of the layer decreases, it can be somewhat more water-accepting than oil-accepting.

that even with the smooth, relatively impenetrable- Various substances can be used as binders for this purpose

casual surfaces that are used for casting a thin top, e.g. B. Casein mixed with small ones

surface layer of uniform thickness are necessary, the binding 5 parts of an aldehyde, carboxymethyl cellulose compound

Properties are not only sufficient to have equivalent bonds, gum arabic and polyvinyl alcohol with

To preserve the quality of the work, but the performance a small proportion of a chromate. However, these are

ability of the bow can actually be demonstrated by the Her- only examples, and in fact each can be hydrophilic

position of the thin surface coating can be improved, colloid that is used for the coating of papers for flat

although what is usually suitable for a harmful change in print sheets and its properties

tion of the nature of the lower layer kept it in very thin but continuous

was necessary for this purpose. Layers is applied in the present invention

An important advantage of the thin surface coatings are used.

of the present invention is that the printing surface coating according to the invention, rather than on the surface coating of the sheet 15, the dung is thinner than has hitherto been considered useful, to be pressed on and hold yourself to it, the thickness of this layer is in the range of 0.23 the coating is likely to penetrate so that it is firm to 2.72 kg per ream, with the best effect in that a margin of 0.23 to 1.81 kg has been found on an underlying, the pressure figure. taking, d. H. oleophilic layer is attached. The so far is a minimum value of 3.63 kg per ream for this one The degree of its attachment to the sheet is primarily used as the practically lowest limit for pressure line has been considered by the properties of the underlying surface coatings of this type because the Shift controlled without affecting the properties of the usual papermaking processes and equipment Surface layer paid special attention to not being able to apply any coating thinner at the same time needs to be. This is shown in the drawing by the continuous display and free of background when printing the printed image parts 17 make clear how it was 25 spots.

deeper than the coating 15 and partially into the layer 13 However, by undertaking additional process ranges, steps, e.g. B. a special calendering of the

The invention will now be based on the execution basis forming web or with a lower Examples of the base coat provided with reference to the drawings in order to avoid the accent. In these 3 ° shows breakage of fibers from the surface to diminish,

Fig. 1 is an enlarged schematic cross section and through the use of special, the coating a pressure-forming method and / or device produced in accordance with the invention is depiction supporting planographic printing sheet, position of the coating from a thin but

2 shows a curve to explain the effect of the walking position from which the planographic printing surface is formed.

Coating thickness is quite possible with the smallest possible filler ratio and gives printing results

nits. . a quality that is completely out of the realm of it

In the practice of the present invention, what is dropped by a further decrease in the over one Base layer, such as B. a sheet or a paper train thickness could be expected. In fact, norbahnll is intended. The paper 11 can in a sometimes considerable reduction in the thickness of the known way with suitable impregnation compounds 40 surface coating as harmful to the quality of the treated to make it a good anti-moisture sheet.

to give stable. A waterproof lower The proposed lightweight cover as a pressure layer 13 is preferably layer on one side of the sheet brings a disproportionate, not yet brought. It depends somewhat on the degree of water-precisely explainable success. Both the tendency of the tightness, which is necessary due to the duration of the expected 45 sheet to throw creases, as well as the tendency of the printing process. In most cases ■ the coating, breaking or chipping off (from which the waterproof lower coating will separate about 4.54 kg per base layer during the printing), take reams and additives such as hardened casein, clear and very distinct, if the thickness of the coating contains latex or the like, which is relatively water-reduced, and that much faster than a tight barrier would form and the proportionality calculation would show itself on the sheet 50,
and adhere to the coating forming the printing surface Another aspect from which the improved can. In addition, the coating of essentially oleo-plates according to the invention has better printing results and has a phile (oil-accepting) property. It should be noted that, in the life of the printing, it is the base paper layer itself, even if it is now impervious. The preparation of a coating compound, whether or not it is gnawed, is normally preferably oleophilic which is oily or other substances which form the image (ink-accepting). _; ■ to take up and to hold tightly (while they are still _ on the surface of the sheet, which with the lower one is sufficiently water-absorbent for background purposes), if coating 13 is provided, a planographic printing coating 15 is heretofore a matter of continuing interest, which is primarily a binding component been in the form of planographic printing form production,
a hydrophilic colloid containing a water-resistant 60 It is not yet known whether the improved print-insoluble thin layer or film forms; or it * image connection created by the mechanical force, a thin layer is formed, which is after casting, which is used during application, z. B. can be made insoluble in water. The properties of the impression or the impact of a type, or whether that of the coating 15, must either be such that the oily material of the printed image penetrates the coating 15 more visibly through the water-absorbing and oil-absorbing 65 than as a result of capillary action or both, but the properties are balanced so that it is suitable for acceptance in each case, it is easy to show that the pressure beobvon Figure fabric and color to the dry _r stayed print image enhancement invention stood by, and such imaging material according to reduced coating thicknesses is caused
holds when it is moistened afterwards. Furthermore, as already stated, the amounts of filler moisture in the components not having a printed image 70 can be changed if the coating thickness

is decreased. It is known that inert, wicking fillers are added to the coating compounds to improve some of their printing properties can. One of the most commonly used substances for this purpose is kaolin. Such fillers are Usually in the coatings in a proportion between 4 and 7 parts of filler to 1 part of binder (on dry weight calculated) to create a surface that will easily accept the printed images and can keep that by typing a typewriter using a carbon paper be applied. These proportions are specified with sufficient accuracy for practical purposes by the given in the following table.

15th

coating Approximate smallest ratio of the Thickness (kg per ream) absorbent filler to the
Binder for holding (T) Carbon paper images (iü _m ; ") 2.72 3.2: 1 2.25 3: 1 1.81 2.6: 1 1.35 2.3: 1 0.9 2: 1 0.45 1.5: 1 0.23 1: 1

The values in the table above lie on a curve which is shown graphically in FIG. 2 of the drawing is.

The reduction in the proportion of filler compared to the usual values has a significant effect the reduced thickness of the coating by allowing the thin layer of binding material is continuous and stronger so that, although substantially thinner than those commonly used Coating, resists erasure, allowing corrections to be made. In a similar way the reduced coating thickness supports the effect of the coating in accepting and holding the printed images, as stated above, so that the filler ratio can be reduced significantly if it is desirable without also reducing the holding force of the printing surface for carbon paper print images under one reduce acceptable value.

It has also been found that the lower filler content produced by the thinner coatings gives extremely good results from the standpoint of moisture retention. the Coatings with the filler ratios that have heretofore been commonly used invariably require a special dampening for a good start every time a printing process starts, or remoistening each time there is a slight delay in printing. It has, however found that this is not at a ratio of filler to binder of 2: 1 or less Case is. The humidification assumed by the planographic printing sheet in a normal treatment for a Average setting of the printing machine is sufficient to get a good printing effect of the sheet Almost instantly to achieve and also an instant resumption of a good pressure effect to generate after an interruption. This is especially important in the case where only a few copies are made are desirable and where the set-up and start-up time takes up a considerable proportion of the time of the printing process and where accordingly long periods of time to adjust the humidity for a good job and a Wasting copies during startup is intolerable.

In addition to the advantages set out in the preceding paragraph, it has been found that the thin The nature of the surface coatings alone, regardless of the filler component, directly affects the moisture-retaining properties of the printing plate surface favorably influenced. This results from the fact that, to a significant extent, thinner print surface coatings are less prone to chipping or breaking, and therefore not the considerable difficulty in creating a strong bond to the lower layer that result from thicker surface coatings. Since it has been shown that the cohesiveness of an underlying layer is in most cases essentially a direct function Their porosity, and therefore their ability to absorb moisture, allows the thinner print surface coating in that it is almost completely insensitive to this influence, the use of lower layers of lower absorbency, which are almost impermeable to water. Under the circumstances under which a Such a lower layer is applicable, the moisture can stay in the printing area for prolonged periods of time be held without seeping into or through the lower layer.

It has also been found that it is possible to include ammonia-copper sulfate in the coating forming solution as the essential ingredient which coagulates the coating and renders the coating insoluble when dried and heated to remove any ammonia residue to drive out. It has also been found that, even if a neutral or slightly alkaline p _H must be kept to the copper sulphate to keep in solution, even ammonium bichromate and ferric ammonium citrate will remain in solution and appropriate iron or chromium reactions with of the carboxymethyl cellulose present. By being uniformly dispersed throughout the coating, these salts act to coagulate almost uniformly when dried without requiring high permeability or the higher filler component closely related to that higher permeability. In cases where it is also desired to include aluminum-carboxymethyl-cellulose as part of the colloid layer, this can be done by using aluminum-carboxymethyl-cellulose as the starting material for the binding additive of the compound. It is thus possible to include the important copper, aluminum, iron and chromium compounds of carboxymethyl cellulose in the desired proportions in the finished insoluble layer by using a self-insoluble application. This enables a low filler content which in turn enables the desired thin pressure surface layer described above by improving the tendency for uniformity in the cast thin layers.

Planographic printing sheets embodying the principles and advantages of the present invention will be used illustrated by the following examples. In any case, a sheet of waterproof paper or some other will be used suitable underlay treated, if desired, with suitable compounds providing moisture resistance, z. B. by a glue bath with melamine-formaldehyde or with urea-formaldehyde, or im Case of paper by adding such a substance to the preparation of such a sheet in the Dutch. A coating of a suitable oleophilic or hydrophilic waterproof composition, e.g. B.

a mixture of casein formaldehyde and latex, can then be applied to at least one surface of the sheet will. When this coating is dry after application, a planographic printing coating will be used in applied to a sufficient extent to produce a dry finished layer between 0.23 and 2.72 kg per egg or preferably yielding between 0.23 and 1.81 kg per egg. Preferably, the sheet is applied prior to application the layer forming the planographic printing surface is calendered one or more times to form the coating can be more easily applied in continuous form at the very reduced thickness desired. Preferred Compositions are:

Example I.

Sodium carboxymethyl cellulose ..

water

5% ammonia copper sulfate solution

glycerin

Chromium trioxide, chemically pure ..

Iron Ammomum Citrate

2g

95 ecm 40 ecm

Ig 0.5 g

Example II

Sodium carboxymethyl cellulose 2 g

Water 90 ecm

5 _^0/0 -ammonia Kupfersulf at-solution .. 40 cc

Glycerine, .... Ig

Ammonium bichromate 0.75 g

Iron ammonium citrate 1.0 g

Example III

Aluminum carboxymethyl cellulose .. 9 g

Water, 221 g

Tone 9g

Glycerin 2.7 g

5% ammonia copper sulphate solution .. 50 ecm

Ammonium dichromate .............. 2.25 g

Iron ammonium citrate 3.0 g

Ammonium hydroxide ...., 7.0 ecm

Example IV

Sodium carboxymethyl cellulose

volume

5% Ammoruak copper sulfate solution. glycerin

2 g 90 ecm

8g 40 ecm

Ig

Ammonium bichromate ,,, ..,. 0.75 g

Iron ammonium citrate 1.0 g

Example V

JSTodium carboxymethyl cellulose .... 2.5 g

Water .., ..., ...,,., ... 78 ecm

Methanol .....,., ..,. 12 ecm

5 ° / ₀ ammonia-copper sulphate solution .. 40 ecm

Glycerin, Ig

Ammonium bichromate 1.0 g

Iron ammonium citrate 1.5 g

Clay 10.0 g

Claims (2)

Patent claims: 1. Planographic printing sheet with waterproof paper backing and hydrophilic, a hardened colloid and filler containing top layer, characterized in that the waterproof paper backing means hardened Caseins, latex or the like oleophilic, d. H. is impregnated to accept ink and a hydrophilic, d. H. moisturizing water-insoluble top layer, e.g. B. Carboxymethyl cellulose with the addition of ammonium, Copper, iron or similar compounds, the thickness of which weighs from 0.23 to 1.81 kg per egg and in which the ratio of the amount of filler to the amount of hydrophilic colloid remains essentially in the range of the values shown in FIG. 2. Planographic printing sheet according to claim X, characterized in that the oleophilic intermediate layer is calendered before the top layer is applied. Considered publications: German Patent Specifications No. 882 998, 848 832. 1 sheet of drawings