JP3586799B2 - Method for producing cast coated paper for inkjet recording - Google Patents

Description

【００５７】
−結果の検討−
表１の結果から明らかなように、本発明の方法により得られたインクジェットキャスト塗被紙は、コックリングおよび画像のムラ共、優れていることがわかる。
【００５８】
即ち、特定の条件下でプレスニップで紙の原紙面に水塗りを行い、さらに鏡面ドラム面から剥離後原紙面に水蒸気を作用させたものは、高い効果を示す。
【００５９】
【発明の効果】
以上に詳述したことから明らかなように、本発明のインクジェットキャスト塗被紙の製造方法は、直接法によって作られたインクジェットキャスト塗被紙、およびリウエット法によって作られたインクジェットキャスト塗被紙共、いずれもコックリングおよび画像のムラ等の品質面において、優れていることがわかる。[0001]
[Industrial applications]
The present invention relates to a method for producing a cast coated paper for inkjet recording for the purpose of improving the cockling phenomenon (hereinafter sometimes referred to as cockling) during printing by an inkjet printer.
[0002]
[Prior art]
The ink jet recording method is to record images and characters by flying small droplets of ink by various operating principles and fixing them on a recording sheet such as paper. Since it has features such as high flexibility of recording patterns and no need for development and fixing, it has rapidly spread in various applications as a recording system for various figures including Chinese characters, color images, and the like. In particular, images formed by the multi-color ink jet method can obtain a record comparable to multi-color printing by the plate making method or printing by the color photographic method, and in applications where the number of copies required is small, In recent years, the inkjet recording method has been widely applied to the field of full-color image recording because it is cheaper than using photographic technology.
[0003]
The recording sheet used in this inkjet recording system has a high density of print dots, obtains a bright image with a bright color tone, absorbs ink quickly, and ink may flow even when print dots overlap. It is required that bleeding does not occur, that print dots are not diffused in the horizontal direction more than necessary, and that the periphery is smooth and not blurred.
[0004]
On the other hand, as a recording medium having a higher surface gloss than before, a cast-coated paper having a highly glossy finish on its surface is known. Further, a technique in which the technique of the cast coated paper is applied to a recording sheet used in an ink jet recording system is being put to practical use. Specifically, there is known a recording sheet in which an ink receiving layer is laminated on a support, and the surface of the ink receiving layer is cast.
[0005]
As a method of the casting treatment in the production of the ink jet recording sheet using the method of the cast coated paper, a direct method, a gelling method, and a rewetting method can be considered. Among them, the direct method is to apply a high gloss finish by pressing the coated layer on a heated mirror drum surface while the coated layer applied on the support is still wet. In the gelation method, the coating layer formed on the support is brought into contact with a gelling agent bath while the coating layer is still in a wet state, and the gelled coating layer is heated to a mirror surface. A high gloss finish is performed by pressing against the drum surface. Further, in the rewetting method, after the coating layer in a wet state is once dried, the coating layer is brought into contact with a rewetting liquid, and then the coating layer is brought into contact with a heating drum to perform a high gloss finish. is there.
[0006]
Any of these casting methods can be used for the ink jet recording sheet of the present invention, but the direct method is particularly preferable for obtaining an ink jet recording sheet having high gloss. The surface roughness, surface temperature, diameter, pressure (linear pressure) at the time of pressing, coating speed, and the like of the mirror roll can be appropriately selected in the same manner as the production conditions of commercially available cast coated paper.
[0007]
In addition, when the above-mentioned gelling method is used, the coating layer is relatively strong, so that the coating layer is not broken even when pressed against a drum heated to a temperature equal to or higher than the boiling point. However, it is necessary to transfer a large amount of water contained in the coating layer into the base paper layer as the support while passing through the nip between the drum and the press roll. Otherwise, the moisture contained in the coating layer will boil explosively after passing through the nip, so that the gloss-developing layer is separated from the drum surface, making it impossible to obtain inkjet paper having the desired gloss. Therefore, even when this gelling method is used, the operating speed must be reduced, which is disadvantageous in terms of production efficiency. In addition, there is a problem that the salt or acid used in the gelling agent remains in the coating layer, and the salt or acid reacts with the dye in the ink to deteriorate color reproducibility.
[0008]
In the prior art, for example, Japanese Patent Application Laid-Open No. 59-59995 is not a method of manufacturing a cast coated paper for ink jet recording, but in a method of manufacturing a cast coated paper by a rewetting method, a coating layer is pressed against a drum surface. Discloses a method for producing a cast coated paper in which water is applied to the back surface of the paper with a press nip. However, an object of the present invention is to improve reverse vertical curl (curl centered on the paper width direction with the back side inside and the high gloss cast finished side outside).
[0009]
Also, for example, Japanese Patent Application Laid-Open No. 60-94692 is not a method for producing a cast coated paper for ink jet recording, but in a method for producing a cast coated paper, steam is applied to the cast coated layer surface after peeling from a drum. A method for producing a cast coated paper is disclosed. However, this invention also aims at improving the reverse curl.
[0010]
Since ordinary cast coated paper is a single-side coated paper, it is subjected to a treatment as described in JP-A-59-59995 and JP-A-60-94692, for example, in order to prevent curling. ing. However, the cast coated paper for ink jet recording causes unevenness of an image and the like, so that it is impossible to directly carry out the countermeasures against curling of the cast coated paper.
[0011]
[Problems to be solved by the invention]
In the method for producing a cast coated paper for ink jet recording, there is an improvement of cockling, which is an even more important issue, in addition to the curling measures described above.
[0012]
Cockling is a phenomenon in which water in the ink passes through the image receiving layer, swells the base paper layer, and causes waving on the surface.It can be avoided by preventing the ink from dropping into the base paper. Since the water in the ink is not absorbed, serious problems such as a decrease in the ink absorption capacity and bleeding of the image become serious.
[0013]
This cockling phenomenon is a particularly important problem in a method for producing a cast coated paper for inkjet recording. That is, in the ink jet recording cast coated paper, the ink absorption rate tends to be low, and when cockling occurs, the printing surface immediately after printing is likely to come into contact with each part of the printer, which often causes stains. For this reason, it is necessary to take stricter measures against cockling prevention than ordinary inkjet recording paper.
[0014]
As a countermeasure against cockling, a measure may be taken to increase the thickness (coating amount) of the image receiving layer to prevent water in the ink from migrating to the base paper. Since the layer is pressed against the cast drum and dried, the coating amount increases, and when two-layer coating or three-layer coating is performed, steam is difficult to escape, drying becomes difficult, and the production efficiency is significantly reduced. Moreover, in the method of producing cast coated paper for ink jet recording, no effective countermeasures against cockling have been found yet.
[0015]
Therefore, as a result of intensive studies by the present inventors, it has been found that, if a cast coated paper is manufactured under specific conditions, a cast coated paper for inkjet recording in which the occurrence of cockling phenomenon is significantly suppressed can be manufactured. Have reached the present invention.
[0016]
The present invention has been made based on such circumstances, and according to the present invention, a coating method for ink jet recording in which the occurrence of cockling phenomenon has been significantly suppressed using a casting method such as a direct method and a rewetting method. Although it is possible to provide a method for producing paper, the direct method is generally preferably used.
[0017]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a method for producing a cast coated paper for ink jet recording according to the present invention comprises a method comprising the steps of: providing at least one ink receiving layer on a support; and providing the colloid particles having an average particle diameter of 300 nm or less on the ink receiving layer. In a coated type ink jet recording paper provided with a glossy layer composed of a coating composition containing as a main component, the glossy layer is pressed against a heated mirror drum while the glossy layer is in a wet state, and has a mirror gloss finish. And applying water to the base paper surface with a press nip that presses the gloss-developing layer against a mirror-surface drum so that the amount of water applied is 5 to ²⁰ g per 1 m ^{2 of} paper. The present invention relates to a method for producing a cast coated paper for ink jet recording, comprising applying steam to the surface of a base paper after peeling from the base paper.
[0018]
In the method for producing a cast coated paper for ink jet recording according to the present invention, first, at least one ink receiving layer is provided on a support.
[0019]
In the present invention, suitable supports that can be used include, for example, chemical pulp such as LBKP and NBKP; mechanical pulp such as GP, PGW, RMP, TMP, CTMP, CMP and CGP; wood such as waste paper pulp such as DIP A pulp and a pigment as main components, a binder, and one or more kinds of additives such as a sizing agent, a fixing agent, a retention agent, a cationizing agent, and a paper strength agent are mixed, and a fourdrinier paper machine, a circular net Base paper manufactured using various devices such as paper machine and twin wire paper machine, base paper provided with size press or anchor coat layer using starch, polyvinyl alcohol, etc., or these size press or anchor coat layer Coated paper such as art paper, coated paper, cast-coated paper, etc., on which a coating layer is provided.
[0020]
In the present invention, these base papers or coated papers may be used as they are, or may be used in a state where flattening is controlled by performing calendering using an apparatus such as a machine calender, TG calender, or soft calender. You may.
[0021]
The basis weight of the support is usually about 40 to 300 g / m ² , but is not particularly limited.
[0022]
In the present invention , at least one ink-receiving layer and a glossy layer are applied in this order on the support as described above.
[0023]
The ink receiving layer is composed of a coating composition containing a pigment and a binder as main components, and is provided at least one layer on a support.
[0024]
As the pigment, a white pigment can be suitably used. Examples of such white pigments include light calcium carbonate, heavy calcium carbonate, magnesium carbonate, kaolin, talc, calcium sulfate, barium sulfate, titanium dioxide, zinc oxide, zinc sulfide, zinc carbonate, satin white, aluminum silicate, Diatomaceous earth, calcium silicate, magnesium silicate, synthetic amorphous silica, colloidal silica, alumina, colloidal alumina, pseudoboehmite, aluminum hydroxide, lithopone, zeolite, hydrohaloysite, inorganic pigments such as magnesium hydroxide; styrene-based plastic pigments, Organic pigments such as acrylic plastic pigments, polyethylene, microcapsules, urea resins, melamine resins, and the like.
[0025]
Examples of the binder include starch derivatives such as oxidized starch, etherified starch and phosphated starch; cellulose derivatives such as carboxymethylcellulose and hydroxyethylcellulose; casein, gelatin, soybean protein, polyvinyl alcohol or derivatives thereof; Various derivatives such as polyvinyl alcohol or silanol-modified, carboxylated, and cationized products thereof; conjugated diene-based copolymer latex such as polyvinyl pyrrolidone, maleic anhydride resin, styrene-butadiene copolymer, methyl methacrylate-butadiene copolymer An acrylic polymer latex such as a polymer or a copolymer of an acrylic acid ester and a methacrylic acid ester; a vinyl polymer latex such as an ethylene-vinyl acetate copolymer; Functional group-modified polymer latex with a monomer containing a functional group such as an xyl group; an aqueous adhesive such as a thermosetting synthetic resin such as a melamine resin or a urea resin; an acrylic such as polymethyl methacrylate; an acid ester; Polymer or copolymer resin; examples include polyurethane resin, unsaturated polyester resin, synthetic resin adhesives such as vinyl chloride-vinyl acetate copolymer, polyvinyl butyral, and alkyd resin.
[0026]
The mixing ratio of the pigment and the binder in the coating composition constituting the ink receiving layer is such that the binder is 3 to 70 parts by weight, preferably 5 to 50 parts by weight, based on 100 parts by weight of the pigment. If the compounding ratio of the binder to 100 parts by weight of the pigment is less than 3 parts by weight, the coating strength of the ink receiving layer composed of such a coating composition may be insufficient. On the other hand, when the compounding ratio exceeds 70 parts by weight, the ink absorbing property of the ink receiving layer composed of such a coating composition may decrease.
[0027]
Further, in the ink receiving layer, for example, a dye fixing agent, a pigment dispersant, a thickener, a flow improver, an antifoaming agent, a foam inhibitor, a release agent, a foaming agent, a penetrant, a coloring dye, a coloring pigment Various additives such as a fluorescent brightener, an ultraviolet absorber, an antioxidant, an antiseptic, an antibacterial agent, a waterproofing agent, a wet paper strength enhancer, and a dry paper strength enhancer can be appropriately compounded. In particular, secondary amines, tertiary amines, and quaternary ammonium salts which form insoluble salts with sulfonic acid groups, carboxyl groups, amino groups, and the like in water-soluble direct dyes and water-soluble acid dyes which are dye components of water-based inks. When the cationic dye fixing agent is blended, the dye is captured in the ink receiving layer, so that the color is improved and an insoluble salt is formed. Runoff and seepage are suppressed.
[0028]
The coating amount of the ink receiving layer varies depending on the required gloss, ink absorptivity, type of the support and the like, and cannot be unconditionally determined, but is usually 1 g / m ² or more. Further, the ink receiving layer may be provided by applying a certain coating amount twice. When the coating is performed twice, the gloss is improved as compared with the case where the same coating amount is applied once.
[0029]
The application of the ink receiving layer is performed by using various devices such as a blade coater, a roll coater, an air knife coater, a bar coater, a rod blade coater, a curtain coater, a short dwell coater, and a size press on-machine or off-machine. Can do it. After the application of the ink receiving layer, the ink receiving layer may be flattened using a calender such as a machine calender, a TG calender, or a soft calender.
[0030]
The number of ink receiving layers can be appropriately determined as needed. The glossy layer provided on the ink receiving layer is composed of a coating composition mainly composed of colloid particles having an average particle diameter of 300 nm or less as a pigment and a binder.
[0031]
The colloidal particles constituting the glossy layer are suspended and dispersed in water, and refer to inorganic or organic particles having an average particle diameter of 300 nm or less as measured by a dynamic scattering method. Specifically, colloidal silica, boehmite, alumina sol such as pseudo boehmite, colloidal alumina, cationic alumina oxide or hydrate thereof, and colloidal silica particles as disclosed in JP-B-47-26959 Inorganic particles such as particles whose surface is coated with alumina; polystyrene, methyl methacrylate, styrene-butadiene copolymer, methyl methacrylate-butadiene copolymer, acrylate and methacrylate copolymer, microcapsules, urea resin, melamine, etc. Organic particles. These may be used alone or in combination of two or more.
[0032]
The average particle diameter of the colloid particles contained in the glossy layer is 300 nm or less, preferably 200 nm or less. When the average particle size of the colloid particles exceeds 300 nm, the effect of suppressing cockling becomes poor, and sometimes the image quality of the cast coated paper for inkjet recording having such a glossy layer may be deteriorated.
[0033]
As the binder forming the main component of the glossy layer together with the colloid particles, any of the same binders exemplified in the description of the ink receiving layer can be suitably used. The mixing ratio of the colloid particles and the binder is such that the binder is 5 to 50 parts by weight, preferably 10 to 40 parts by weight, based on 100 parts by weight of the colloid particles. If the blending ratio of the binder to 100 parts by weight of the colloidal particles is less than 5 parts by weight, sufficient gloss may not be exhibited. On the other hand, when the mixing ratio of the binder to 100 parts by weight of the colloidal particles exceeds 50 parts by weight, the content ratio of the colloidal particles in the coating composition is relatively reduced, and the promotion of the wetting effect by the colloidal particles may not be sufficient. is there. Further, the ink absorbency deteriorates, and the ink remains on the surface of the glossy layer without drying for a long time after printing, so that the ink is rubbed and the image is stained.
[0034]
In the present invention, one or more types of white pigments can be contained in the gloss-developing layer together with the colloid particles. In this case, however, the pigment generally has a large particle size and is opaque, so it depends on the particle size of the pigment. The weight ratio between the colloid particles and the pigment is preferably 80/20 or more, and more preferably 90/10 or more, in the ratio of (colloid particles) / (white pigment).
[0035]
The glossy layer may contain the above-mentioned various additives in addition to the above-mentioned colloidal particles and binder, and optionally a white pigment.
[0036]
In the present invention, as the colloidal particles, those having a porous structure composed of amorphous silica / alumina or those mainly containing cationic colloidal particles are particularly preferably used.
[0037]
For example, various apparatuses such as a blade coater, a roll coater, a bar coater, a rod blade coater, a curtain coater, a short dwell coater, and a size press can be used for coating the glossy layer.
[0038]
Since the amount of the glossy layer to be applied varies depending on the smoothness and size of the ink-receiving layer, required smoothness, and the like, it is difficult to unconditionally determine the amount, but usually it is sufficient to use ² g / m ² or more. . Further, calendar processing using a machine calendar, a TG calendar, a super calendar, a soft calendar, or the like may be performed.
[0039]
In the present invention, drying of the ink-receiving layer and the gloss-developing layer may be carried out according to a conventional method using various drying apparatuses such as a hot air dryer, an air foil dryer, an air cap dryer, a cylinder dryer, and an infrared dryer.
[0040]
In the present invention, a coat type in which at least one ink receiving layer and a gloss developing layer composed of a coating composition mainly containing colloid particles having an average particle diameter of 300 nm or less are provided on the support, is provided. In the ink jet recording paper of the above, the glossy layer is pressed against a heated mirror drum while being in a wet state, and has a mirror-gloss finish, and the press nip presses the glossy layer onto the mirror drum. By coating the base paper surface with water so that the amount of water applied is 5 to ²⁰ g per 1 m ^{2 of} paper , and applying the water vapor to the base paper surface after the glossy layer has been peeled off from the mirror drum . A cast coated paper for inkjet recording in which cockling is significantly suppressed can be obtained.
[0041]
The time (retention time) from immediately after the paper web is peeled off from the mirror drum surface until the water vapor acts on the base paper surface is usually 2 seconds or less, preferably 1 second or less, more preferably 0.5 second or less. It is. If the retention time is too long, the temperature of the paper decreases, moisture remains in the paper, and the cockling prevention effect decreases.
[0042]
The amount of water vapor acted on is unconditionally determined from the relationship with the retention time, but is generally in the range of 0.3 to 2.0 g per m ^{2 of} paper in terms of moisture. If the amount of the applied water vapor is too small, the effect of preventing cockling is small, and if it is too large, the unevenness of the image is increased.
[0043]
The mechanism of the excellent effects of the present invention is not clear, but by adding moisture to the base paper and drying with the residual heat of the paper, the dimensional stability of the paper against water increases, thereby reducing the occurrence of cockling. It seems to do.
[0044]
In the present invention, in order to apply steam to the paper web, in the case where the steam is applied after peeling off from the mirror surface drum surface, it may be sprayed by a nozzle or the like or the steam may be applied from a flute having a large number of pores. .
[0045]
When water is applied to the base paper surface of the paper with a press nip that presses the coating layer against the mirror surface drum surface, water is transferred from a color pan to a roll applied to the base paper surface via a squeezing roll. Water may be applied. At this time, the roll may be normal rotation or reverse rotation.
[0046]
【Example】
Next, examples of the present invention will be shown, and the present invention will be described more specifically. In the Examples and Comparative Examples, “parts” and “%” indicate absolute dry parts and absolute dry weights, respectively, unless otherwise specified. The particle diameters shown in Examples and Comparative Examples are average particle diameters determined by a dynamic scattering method.
[0047]
1) Preparation of Support A ratio of light calcium carbonate, heavy calcium carbonate, and talc to 10 parts of wood pulp consisting of 80 parts of LBKP (freeness of 400 mlcsf) and 20 parts of NBKP (freeness of 400 mlcsf) is 10 parts. 25/10 pigment, 0.10 part of commercially available alkyl ketene dimer, 0.03 part of commercially available cationic (meth) acrylamide, 0.80 part of commercially available cationized starch, and 0.40 part of sulfate band Using a fourdrinier paper machine, a support having a basis weight of 90 g / m ² was prepared.
[0048]
2) Coating of ink receiving layer A coating composition having the following composition was prepared on the surface of the support of the above 1) at a solid content concentration of 16%, and this coating liquid was dried with an air knife coater at a coating amount of 12 g /. It was applied and dried to obtain m ² .
<Ink receiving layer coating composition>
Synthetic amorphous silica (Mizukasil P75D: manufactured by Mizusawa Chemical Co., Ltd.) 100 parts Polyvinyl alcohol (PVA117: manufactured by Kuraray Co., Ltd.) 25 parts Colloidal silica (Snowtex-O: manufactured by Nissan Chemical Industries, Ltd.) 30 parts Cationic dye fixing agent (poly) Fix 601: Showa Polymer Co., Ltd.) 25 parts
3) Coating of Gloss Expression Layer The gloss expression layer was obtained by coating on the surface of the ink receiving layer and then casting. In the casting treatment, the coating composition of the glossy layer was applied to the surface of the ink receiving layer, and after 2 seconds, the coating was pressed against a mirror roll heated to a surface temperature of 90 ° C. and dried to perform a direct method. The coating composition of the gloss-developing layer is composed of 100 parts of colloidal silica (PST-3: manufactured by Nissan Chemical Industries, Ltd.) having an average particle diameter of 300 nm as colloid particles, and a styrene-butadiene-based latex (average particle diameter) as an adhesive. These were prepared by setting 20 parts of 135 nm: manufactured by Nippon Synthetic Rubber Co., 30 parts of a cationic dye fixing agent (Polyfix 601: manufactured by Showa Polymer Co., Ltd.) and 20% of solid content. This coating liquid was applied to the ink receiving layer surface by the above-mentioned casting method so as to have a dry coating amount of 3 g / m ² by a roll coater, and a cast coated paper for inkjet recording was obtained by the direct method.
[0050]
Examples 1 and 2 support the method of the present invention, and vary the amount of water added. In Comparative Example 1, only the base paper surface was water-coated with a press nip.
[0051]
In order to confirm the excellent effects of the present invention, a sample without steam treatment (Comparative Example 2 ), a sample with steam applied only to the coated surface immediately after peeling off from the mirror surface drum surface (Comparative Example 3 ), A sample having a too long retention time after peeling off from the mirror drum surface (Comparative Example 4 ) and a film having too much water vapor applied after peeling from the mirror drum surface (Comparative Example 5 ) were used as Comparative Examples.
[0052]
Table 1 shows the results of cockling and image unevenness of the cast coated paper for inkjet recording obtained in each of the examples and comparative examples prepared as described above.
[0053]
In the present invention, cockling and unevenness of the image of the cast coated paper for inkjet recording were evaluated as follows.
[0054]
-Evaluation method-
<Cock ring>
Using a desk writer HP560C manufactured by Hewlett-Packard Company, solid printing of 100% black gradation (10 cm × 10 cm) was performed, the degree of waving was visually evaluated, and displayed in five levels.
Rank 1: Cockling is hardly detectable.
Rank 2: Fine cockling is slightly observed.
Rank 3: There are only small waves and almost no large waves.
Rank 4: Large undulation is seen on a part of the printing surface.
Rank 5: A large sharp waviness having a period of 1 to 2 cm occurs over the entire printing surface.
* At rank 4 or higher, problems such as dirt are caused in practical use.
[0055]
<Image unevenness>
Solid printing (10 cm × 10 cm) of cyan 60% gradation was performed with a desk writer HP560C manufactured by Hewlett-Packard Company, and the degree of unevenness was visually evaluated.
Rank 1: No unevenness completely Rank 2: Slight unevenness Rank 3: Severe unevenness
[Table 1]

[0057]
-Examination of results-
As is evident from the results in Table 1, the inkjet cast coated paper obtained by the method of the present invention is excellent in both cockling and image unevenness.
[0058]
That is, a sheet obtained by applying water to the base paper surface of a paper with a press nip under specific conditions and then applying water vapor to the base paper surface after peeling off from the mirror surface drum surface exhibits a high effect.
[0059]
【The invention's effect】
As is apparent from the above detailed description, the method for producing the inkjet cast coated paper of the present invention is applicable to both the inkjet cast coated paper produced by the direct method and the inkjet cast coated paper produced by the rewetting method. It can be seen that both are excellent in terms of quality such as cockling and image unevenness.

Claims (3)

Coat type ink jet recording paper in which at least one ink receiving layer and a gloss developing layer composed of a coating composition mainly containing colloid particles having an average particle diameter of 300 nm or less are provided on the support. in, there is said glossy layer is formed by mirror-gloss finish is pressed against the mirror surface drum which is heated while in the wet state, the water in the original paper in the press nip for pressing said glossy layer mirror drum Water-coated so that the coating amount is 5 to ²⁰ g per 1 m ² of paper , and after the gloss-developing layer is peeled off from the mirror drum, steam is allowed to act on the base paper surface. Manufacturing method. The method for producing a cast coated paper for inkjet recording according to claim 1 , wherein the colloid particles have a porous structure comprising amorphous silica / alumina. The method for producing a cast coated paper for ink jet recording according to claim 1 , wherein the colloid particles are mainly composed of cationic colloid particles.