DE3016766A1 - RECORDING MATERIALS FOR INK JET RECORDING - Google Patents

Description

Recording materials for ink jet recording

The invention relates to recording materials for ink-jet recording, in particular Sheets for ink jet pens made from a substrate having a low water absorbency and having a Layer made of a water-soluble polymer as an inkjet writing layer owns. The received recording sheet can be used to form a multicolor image of high density, resolution and good color reproduction.

Due to its noiselessness, quick recording suitability and suitability for normal paper

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The quality of the inkjet recording became increasingly high more popular and has as one of the areas of application the application as a terminal printer. In these methods, the multicolor recording becomes easy using a plurality of ink nozzles achieved. Various methods of multicolor recording using ink jet writing systems was examined. With monochrome recording, v / ie with a final printing apparatus, every point on the recording paper are subjected to only one recording operation; therefore is a satisfactory one Ink-jet recording with fine paper, rolled Papers for payment sheets or types of papers with slightly greater ink absorbency

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than those previously mentioned / However, in the case of multi-color ink-jet recording, the ink is ejected from two or more nozzles, and when two or more ink dots often meet at a point on the recording paper, more ink is used per unit area than in the case of monochrome recording multicolor inkjet recording is carried out on sized paper such as fine paper or pigment-coated paper, for example art paper or coated paper, insufficient wetting with the ink and poor ink absorbency can cause problems such as the ink flowing off the point of impact, mixing of different ones Colors of the ink so that an undesirable color is obtained, the ink drifts off causing background smear of the paper, and the paper lifts off on parts of the recorded image. Papers with low ink absorbency, such as fine paper, art

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paper and other coated papers as unsuitable for the technical multicolor inkjet recording.

To overcome the problems listed above can be used for multi-colored ink stick drawing Recording paper of high ink absorbency be used. A paper, like! Filter paper, made of low density without the use of sizing agents is, wets itself well with ink and has gaps in the paper layer, so that a sufficient Extent of the ink absorbency is achieved to to achieve multi-colored ink jet reproduction. However, there are also problems with this paper. An ink dot spreads on such a paper and at the same time penetrates deeply into the paper. Excessive spreading of the tinfee results in a low one Resolution and the deep penetration of the ink do that The recorded image is whitish, as light is scattered through the gaps in the upper layer of the paper will. If a four-color recording (blue, purple, yellow and pink) on a paper with such high ink absorbency is caused by the depth of penetration of the first drop of ink into the Paper is sufficient to reduce its visibility from above, resulting in poor color rendering results. Therefore, if a paper of high ink absorbency Used in multi-color ink jet recording, there is no overflow, mixing or flying the ink, however, has got that Low density image, low resolution image, and poor color reproduction. These errors become particularly serious when halftone reproduction is desired in multi-color ink jet recording.

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By the methods described in Japanese Patent Applications 73012/77, 7WO / 77 and 4-9 113/78 Efforts are made to keep the spreading and penetration of the ink into the recording paper to a minimum, while the decrease in ink absorbency is kept to a minimum. However, the retention is ink absorbency is fundamentally incompatible with decreased ink spread and -penetration and ink absorbency within a sufficient range to enable multi-color inkjet recording to allow, iat inevitably accompanied by the undesirable spread and intrusion of the ink. In other words, the ink jet recording papers contained in these references are the Prescribe absorption of the ink in the paper, they are unable to provide a sharp, high-density, high-density image Resolution and good color rendering. In particular, such papers are unsuitable for use in a multicolor inkjet recording where halftone reproduction is required. In summary, cind to manufacture an image of high density, high resolution and good color reproduction in multicolor inkjet recording Recording papers are required that meet the following seemingly incompatible requirements: (a) The ink must not be spread excessively on the paper; (b) as much ink as possible must be on the The surface of the paper remains without penetration and (c) there must be no overflow, mixing or flies the ink.

One object of the invention is to provide peeling-offs for the ink-jet recording free from overflow,

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Mix and! Lie of the ink and which are a picture of high density and resolution.

Another object of the invention is sheets' for inkjet recording that for multicolor Ink jet recording are suitable and free from overflow, mixing and flying of the ink and which give an image of high density and resolution. One It is a specific object of the invention to provide sheets for ink jet recording; those for multicolor Ink jet recording where faithful halftone reproduction is required.

In the context of the invention it has now been found that by applying a coating of a water-soluble Polymers on a support of low water absorbency Sheets for inkjet recording with a uniform layer of the coating a water-soluble polymer which does not penetrate into the carrier. Despite the fact that the leaves obtained do not meet the requirements so far have the degree of ink absorbency considered for ink jet recording, it was found that the recording sheets for forming an ink jet writing image of good quality without the unwanted overflow, mixing or flight of the ink caused.

Specifically, according to the invention, there is a Ink jet recording or writing sheet, which a layer of a water-soluble polymer as an overlay

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has train, which is attached to a support having a water absorption capacity according to JIS P8140 of not more than 30 g / m ^2. This JIS P8140-1976 document describes a test method for the water absorbency of papers and boards (Cobb test).

The characteristic feature of the 'inkjet writing sheet according to the invention is that the
Layer of the water-soluble polymer in the sheet in which the water of the aqueous ink dissolves or
swells so that the viscosity of the ink is increased,
whereby, an image of high density, high resolution and good color reproduction is formed without any
Ink overflow, mixing or ink flying occurs ο

When a jet of aqueous ink is applied to the ink jet writing sheet according to the invention with the layer of the water-soluble polymer coating, the polymer dissolves or swells in the ink, so that its viscosity is increased, whereby the overflow, flying or mixing with a Ink from
different color is prevented. If a
If considerable centrifugal force is exerted on the ink, for example by directing the jet of the aqueous ink onto a recording sheet wound around a rotating raster drum, increasing the viscosity of the ICinte is particularly effective in preventing the ink from overflowing, flying or mixing with an ink of different types Color to prevent. This increase in viscosity is also 'effective' in preventing excessive spreading and penetration of the ink.

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INSPECTED

shafts as well as the low water absorbency of the carrier provides the ink jet writing sheet according to FIG Invention of a multicolored picture of good quality with high density, high resolution and good color rendering.

For the purpose of preventing the overflow of ink the water-soluble polymer favorably has a high Viscosity, however, is on the other hand excessive by an high viscosity the application of the coating made of the polymer difficult- therefore preferably the polymer has a viscosity of 5 to 5000 cps. more preferred by ΊΟ to "100 cps, determined as a 5% aqueous solution in Water at 20 ° C.

Illustrative examples of water-soluble polymers for use in the inkjet writing sheets according to of the invention include starches including starch derivatives, proteins, cellulose derivatives, vinyl polymers and the like. Specific examples of water-soluble polymers include sweet potato starch, potato starch, Corn starch, Konryaku glucomannan, extract from 3? Unori agar, Sodium alginate, extract of Hibiscus manihot, Tragacanth, gum arabic, locust bean gum, guar gum, Pectin, carrageenan, glue, gelatin, casein, soybean protein, oxidized starch, dextrin, starch phosphate, carboxymethylated starch, hydroxyethylated starch, cyanoethylated starch, starch grafted with acrylic acid, cationic starch, methyl cellulose, hydroxyethyl cellulose, Carboxymethyl cellulose, cellulose sulfate, cyanoethyl cellulose, Polyvinyl alcohol, carboxylated polyvinyl alcohol, Polyvinyl methyl ether, sodium polyacrylate, partially saponified products of polyacrylate ester, methyl - *

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vinyl ether-maleic anhydride copolymers, ethylene Maleic anhydride copolymers, styrene-maleic anhydride copolymers, Vinyl acetate maleic anhydride copolymers, sodium polystyrene sulfonate, sodium polyvinyl sulfonate, Sodium poly ~ 2-acrylamide-2-methylpropanesulfonate, polyvinylbenzyltrimethylamraonium chloride, Polydiallyldimethylammonium chloride, the hydrochloride of polydimethylaminoethyl methacrylate, Polymethacryloyloxyäthyldimethyl-IIhydroxyäthylammoniumchlorid, Polyvinylpyridine, polyvinylimidazole, tolyäthylenimin, polyamide-polyamines, quaternary Polymeric ionic ammonium salts, polyacrylamide, polyethylene oxide, and polyvinylpyrrolidone. Gelatine, hydroxyethyl cellulose, Polyvinyl pyrrolidone and sodium polystyrene sulfonate are particularly preferred. A polymer that dissolves and swells quickly in water capable, ata is usually most preferred.

The water-soluble polymer coating is applied to a dry weight, which is preferred in the range from 0.5 to Ί0 g, more preferably from 2 to 5 g »per ι for one surface of the carrier,

the viscosity of the polymer is low, a larger amount is needed, while a smaller amount is sufficient if the viscosity is high. If the water-soluble polymer is too small, it is not possible to achieve a satisfactory increase in the viscosity of the aqueous ink, and consequently the excess of the ink overflows, flies or becomes with a different sack of ink mixed and a low density image is formed. Usually, the upper limit of the amount of the absorbed water-soluble polymer is 10 g / m 2

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α.

Palls the water-soluble polymer in too large a size Amount is applied, coating and drying speeds are hardly increased.

In general, it is preferred that the water-soluble Polymers are used in combination with a pigment, to obtain an ink jet writing layer that absorbs the ink, is not excessively sticky and which is whitish. Illustrative examples of to be used in combination with the water-soluble polymer Pigments are clay, talc, calcium carbonate, earium sulfate, Zinc oxide, titanium white, synthetic silicates, silicic acid, diatomaceous earth, finely powdered polyethylene, finely powdered Polystyrene and finely powdered urea resin. The pigment is preferably used in an amount of from 0 to 10 parts by weight per part by weight of what sex'lö are looking for polymers used.

The water-soluble polymer layer becomes general drawn up from the solution. The solution can contain a latex, such as SBR, for increased bond strength the carrier, a wetting agent and water absorbent, such as a surfactant, glycerin, polyethylene glycol, pyrrolidones, such as ^ -pyrrolidone or water-absorbing gels, such as a polyacrylamide gel or Starch gel, a dye or pigment for tinting, such as bluish, a fluorescent dye, a UV absorber to improve the lightfastness of the ink, a pigment dispersant, a defoaming agent, a lubricant such as calcium stearate. a means to prevent mold and in certain cases Means for the water resistance of the water-soluble Polymers such as a melamine resin included.

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Much of the above is dealt with with the writing sheet according to the invention, a carrier with low water absorbency used. That is to say, around the surface of the carrier with a uniform coating of a To provide water-soluble polymer which does not penetrate into the support is low in water absorbency necessary. Trap the porter no low Has water absorbency, that penetrates water-soluble polymers in the carrier and does not form a layer on the surface. Palis one such pigment When used in ink jet recording, a drop of ink penetrates the paper and the resulting image has low density, low resolution, and poor color rendering. Explanatory materials for the wearer of low water absorbency include papers, towels, plastic films, metal sheets, holeboards and Panes of glass. For the purposes of the invention, it is preferred that the water absorbency of the wearer be measured according to JIS PS14-O, with the test piece in contact with Water is held for 120 seconds, no more than

30 g / m. Particularly preferred carriers have one

Water absorbency of not more than 20 g / m. In this JIS P8140-1976, there is a method for Water absorbency test defined when a one-sided surface made of paper or cardboard without absorption property with water during a certain Period is contacted. The contact time is usually about 120 seconds. However, it varies Contact time ranged from about 60 seconds to 300 seconds according to the purpose of the test and the type of dee used Paper. Furthermore, the water absorbency is determined by the following equation:

A - '! 00 W,

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wherein A: the water absorbency (g / m) and

W: the increase in the mass of the test piece used (g)
indicate. '

If a porous material such as paper or cloth., Than Carrier is used, it is necessary to have water absorbency of the wearer by treating it with a water repellent.

That used in the carriers according to the invention Paper is mainly made from vegetable paper pulp, which can be mixed with synthetic fibers, synthetic pulp or inorganic fibers. The paper may incorporate a sizing agent such as natural resin, an alkyl ketene dimer or alkenyl succinic acid Filler, such as a clay, l'alk or calcium carbonate a paper strength modifier such as a polyacrylamide or starch, a fixative such as Aluminum sulfate or a cationic polymer Wet strength modifier such as a Melamine resin or a polyamide-polyamine-epichlorohydrin resin, a dye and a fluorescent brightening agent incorporated included.

If paper is used as a carrier, it is necessary that the paper contains a sizing agent or is coated with it so that it has water absorption ability of less than 30 g / m. This in turn is necessary to match the surface of the support to provide a uniform coating of a water-soluble polymer which does not penetrate into the carrier. If

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a coating of a water-soluble polymer on top of a Carrier made from unsized or low-sized paper having a water absorbency of more than 30 g / m 2, as in Japanese Patent Application No. 53012/77, 7 ^ 340/77 and 49 113/78 described, is applied, day water-soluble polymers penetrate the paper and do not form a layer on the surface of the paper. A3 Paper web can be passed through a size press for coating with a water-soluble polymer such as starch or Polyvinyl alcohol or a sizing agent such as the sodium salt of an alkyl ester of a styxol-maleic anhydride copolymer be guided.

If desired, a coating of a pigment can be used with low water absorption capacity; and high opacity unc · high degree of whiteness beneath the water-soluble layer Polymers should be applied as a primer layer. Due to the primer layer, an inkjet writing bil of high density and better contrast can be obtained. Specific examples of as a primer layer Usable pigments include titanium white, kaolin, calcium carbonate and the like. In this Pail, the ammonium salt of a half isopropyl ester of a styrene-maleic anhydride copolymer, an ammonium salt of a butyl acrylate-acrylic acid copolymer and the like can be used as a binder.

The coating made of the water-soluble polymer can applied by a machine commonly used to coat paper, such as an air knife coater, Sheet coating device, ironing device, gravure coating device or curtain coating device. However are machines such as size presses and roll cover

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devices that are used to form a uniform coating on the carrier are not capable of making the writing sheets according to the invention are not suitable. After this the coating solution containing the water-soluble polymer has been applied and dried, it is advantageous to that the Überex ^ Zugsfläche using a machine calendering, a Gloss calendering or supercalendering is made smooth.

An aqueous ink is commonly used in ink jet recording used and the inkjet writing sheets according to the invention are used in combination with an aqueous ink. The aqueous, in the inkjet recording Ink used on the sheets according to the invention may contain a water-soluble dye, Wetting agent, solubilizer for the dye, agent to prevent mold, contain water or water-miscible organic solvents and the like, such as B. in Japanese patent applications 12105/72, 89534/74, 97620/74, -143601/75, 102407/75, 129310/76, 137506/76, 137505/76, 115106/76, 139408/76, 12008/77, 12009/77, 12010/77, 7 '! 406/77, 77706/78, 119107/78, 119108/78, 14643/77, 14644/77 and 20882/78.

According to the invention, there is thus an inkjet writing sheet proposed which a layer of a coating of a water-soluble polymer on a Carrier having a water absorbency of not more than 30 g / m 2 as determined in accordance with JIS P8140.

The ink jet writing sheet according to the invention has the following advantages: (a) there is no overflow,

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Mixing or flying the ink on, (b) it becomes one Obtaining high image density, (c) the minimal spreading of the ink dots gives high resolution, and (d) it will have a good color rendering for the multicolored Inkjet recording obtained.

The invention is explained in detail below with reference to the following examples and comparative examples, without the invention being limited thereto.

example 1

100 parts of LBKP were added to a degree of Maiilungsgrad (C.S.F.) from 430 ecm and with 5 parts talk, 1 part Rosin and 2 parts of aluminum sulfate mixed. That Mixture was placed on a Fourdrinier machine for formation a web of base paper with a basis weight of 100 g / m abandoned. A pipe press was used to cover the web with the sodium salt of the isopropyl ester of a styrene-maleic anhydride copolymer into one

Dry weight of 1 g / m used. The raw paper had

a water absorption capacity of 19) 5 g / m 2 was determined according to JIS P8140. A coating solution (solids content 25%) from 100 parts of gelatin and 200 parts of talc on one side of the base paper with an air knife coating device absorbed to a dry weight of 10 g / m 2. After drying, the base paper was supercalendered.

Example 2

A 5% aqueous solution of polyvinylpyrrolidone (viscosity 50 cps at 20 ° C) was applied to a surface

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of the base paper according to Example 1 with an air knife coating device to a dry weight; pulled up from 2 g / m. After drying, the base paper was machine calendered.

Example 3

A coating solution (substance content 20 %) of 100 parts of the sodium salt of an alkyl ester of a styrene-maleic anhydride copolymer and 100 parts of titanium white was applied to one side of the base paper from Example 1 with a sheet coating device to a dry weight of 2 g / m 2. After drying, the coated paper or the carrier had a water removal

Sorption capacity of 15 g / m, determined according to JIS P814O. An aqueous 2.5% solution of polyethylene oxide (Viscosity 2SO cps at 20 ° C) was applied to a surface of the carrier with an air knife coater to one Dry weight of 1 g / m raised. After drying the sheet obtained was supercalendered.

Example A-

An aqueous solution with a G-ehalu of b% hydroscyethyl cellulose and 0.5 % polyethyleneimine (viscosity 120 cps at 20 ° C.) was applied to a surface of the base paper from Example 1 with an air knife puller

raised to a dry weight of 3 g / m 2. After After drying, the base paper was machine calendered.

ORIGINAL INSPECTED 030046/0830

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Example 5

A 5% aqueous solution of sodium polystyrene sulfonate (Viscosity 170 cps at 20 ° C) was reduced to a Surface of the base paper according to example 1 with an air

Knife coating device to a dry strength of 2 g / m raised. After drying, the raw paper was machine calendered.

Comparative example 1

100 parts of LBEP were added to a degree of grind (C.S.i '.) from 4-30 ecm and with 0.2 parts of a polyamide-polyamine-epichlorohydrin resin mixed. The mixture was applied to a Fourdrinier 'machine to provide a

Web of the base paper with a basis weight of 100 g / m given.

Comparative example 2

A wire pike was used to cover both sides of the base paper from Comparative Example 1 with a 10% aqueous polyvinylpyrrolidone solution to form a

Dry weight of 4 g / w used.

Comparative example 3

100 parts LBKP became one: degree of freeness (C.S.P.) from 430 ecm and with 1 part rosin and 2 parts of aluminum sulfate mixed. The G-emic became on a Fourdrinier machine to form a path of the

Base paper with a basis weight of 100 g / m.

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Investigation -

The multi-color ink jet drawing was made with each of the writing sheets of Examples 1 to 5 and the Comparative examples 1 to 3 with four kinds of an aqueous Ink (blue ink, purple ink, yellow ink, and pink ink) sequentially from four ink-jet nozzles with a diameter of 50 μm of a jet printing device raft, executed. The results are given in Table I below. The writing sheets of Examples 1 to 5 according to the invention provided a high density image without causing ink overflow. The leaves, on the other hand, showed the Comparative examples made by conventional procedures spilled ink and failed in the production of high density images.

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1 Ink over-
flow. * 1 Table I. diameter
of inks
spots * 3
(around) picture quality 2 very good Density * 2 150 very good Ex. 5 very good 1.45 170 very good Ex. 4- very good 1.37 170 very good Ex. 5 very good 1.41 140 very good Ex. 1 very prut 1.46 170 very good Ex. 2 very good ViO 220-260 bad Cf.
Ex. 3 very good 0.88 220 Well Cf.
Ex. scnlech / G 0.95 120 bad Cf.
Ex. 1.13

Overflow of the ink from the point of mixing of the four colors. "Very good" means no overflow. "Bad" means no image formation due to ink overflow.

Density in the solid area of the blue ink Diameter of a point of blue ink.

Example 6

A coating solution (solids content of 20%) composed of 75 parts of gelatin, 25 parts of polyvinylpyrrolidone and 100 parts of silica sol was applied to a surface of a corona-treated polyester film of 100 μm thickness with an air knife coating device to a dry weight of 5 g / m 2. The multicolor ink jet recording was made with the obtained film in the same manner as

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carried out in examining the preceding examples. There was no ink overflow and the film made a sharp, high-density egg, no matter whether it was examined in reflected light or in transmitted light.

The invention has been described above on the basis of specific embodiments without being limited thereto.

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Claims (1)

3016768 Patent to sayings _v 1, recording sheet for ink-jet recording, containing a layer of a water-soluble polymer coating on a support with a water absorption capacity of not more than 30 g / m ² , determined by contacting with water for a certain period of time in accordance with JIS P -814-0. 2 »Recording sheet according to claim 1, characterized in that that the specific period of time in the testing process according to JIS P814O has a value of 120 seconds. 3 "Recording sheet according to claim 1 or 2, characterized characterized in that the water absorbency of the carrier is not more than 20 g / m 2. 4. Recording sheet according to claim 1 to 3 »thereby characterized; that the water-soluble polymer is a Viscosity from 5 to 5000 cps, determined as fj '& ige aqueous Solution, owns. 5ο recording sheet; according to claim 4, characterized in that that the water-soluble polymer has a viscosity of 10 to 100 cps, determined as 5% is aqueous Solution, owns. 6. Recording sheet according to claim 1 to 5, characterized characterized in that the water-soluble polymer made from sweet potato starch, potato starch, corn starch, Konnyakuglucomannau, Funori agar extract, ITodium alginate, Extract of Hibiscus manihot, tragacanth, gum arabic, 030046/0830 Carob Bean Gum, Guar Gum, Pectin, Carrageenan, Glue, gelatin, casein, soybean protein, odixed starch, dextrin, starch phosphate, carboxymethylated Starch, hydroxyethylated starch, cyanoethylated starch, starch grafted with acrylic acid, cationic starch, methyl ce UuIo se, hydroxyethyl cellulose, carboxymethyl cellulose, cellulose sulfate, cyanoethyl cellulose, polyvinyl alcohol, carboxylated polyvinyl alcohol, polyvinyl methyl ether, Sodium polyacrylate, partially saponified Products of polyacrylate esters, methyl vinyl ether-maleic anhydride copolymers, Ethylene maleic anhydride copolymers, Styrene maleic anhydride copolymers, vinyl acetate maleic anhydride copolymers, ITodium polystyrene sulfonate, sodium polyvinyl sulfonate, sodium poly-2-acrylamide-2-methylpropane sulfonate, Polyvinylbenzyltrimethylammonium chloride, Polydiallyldimethylammonium chloride,. the hydrochloride of polydimethylaminoethyl methacrylate, Polymethacryloxyäthyldimethyl-ß-hydroxyäthyiammoniuiachlorid, Polyvinylpyridine, polyvinylimidazole, polyethyleneimine, Polyamide-Polymain, quaternary ammonium salt polymers from Ion type, polyacrylamide, polyethylene oxide and polyvinylpyrrolidone. 7. Recording sheet according to claim 1 to 6, characterized in that the carrier consists of paper, cloth, plastic films, metal sheets, wooden boards and panes of glass. @ _ 8. Recording sheet according to claim 1 to "7» thereby characterized in that the coating is soluble in the water Polymers in a dry weight amount of 0.5 to 10 g per m of the carrier is present. 030046/0830 9 recording sheet according to claim 8, characterized in that that the coating of the water-soluble polymer ρ in a dry weight amount of 2 to 5 g per m des Carrier is present. 10. Recording sheet according to claim 1 to 9i thereby characterized in that the layer of the coating of the water-soluble polymer further contains a pigment. 11. Recording sheet according to claim 10, characterized in that the pigment is made of clay, talc, calcium carbonate, Barium sulfate, zinc oxide, titanium white, synthetic silicates, silica, diatotaene earth, finely powdered Polyethylene, finely powdered polystyrene or finely powdered Urea resin is made. 12. Recording sheet according to claim 9 or 10, characterized in that the pigment in an amount from 0 to 10 parts by weight {per part of the water-soluble polymer is present. 13. Recording sheet according to claim 1 to 12, characterized in that it further comprises a layer made of a pigment with low water absorption capacity contains between the support and the layer of the coating of the water-soluble polymer. 14. Recording sheet according to claims 1 to 13 » characterized in that the water-soluble polymer consists of gelatin. 15. Recording sheet according to claims 1 to 13 » characterized in that the water-soluble polymer consists of polyvinylpyrrolidone. 030046/0830