JP3969896B2 - Recording method - Google Patents

Description

【００１５】
更に、本発明における吸水性ポリマと水素結合を形成し得る原子団として、下記の（Ａ）〜（Ｅ）に示す化学構造式で表される、アルコール基，ジオール基，カルボキシル基，エステル基，エーテル基，アミド基，ベンゼンカルボン酸基があり、これらの原子団に炭素数の多いアルキル化合物を結合させたものは、そのアルキル基の性質により撥水性を示すようになり、この化合物元素が付加した吸水性ポリマは前記撥水性により湿気が吸水性ポリマ粉体の水素結合能力をもつ原子団と付加するのを防ぐ。このため、湿気に対して非常に抵抗力が大きくなり、耐湿性を大幅に向上させることができる。そして、この付加の結合様式が、水素結合であるために大量の水と接すると、水素結合で結合している原子団は簡単に水分子が付加する状態に置き換わるため、改質前の吸水性ポリマとなり、吸水性，増粘性，画像転写性はアルキル化合物を付加する前と同じ性質になる。すなわち、耐湿性が良く、吸水，増粘性が良い、高品質な転写画像がえられる吸水性ポリマ粉体を作成できる。また、この結合がイオン結合様式とか共有結合様式であると、耐湿性は良くなるが、大量の水による作用に対して処理前のポリマに戻らず吸水性は悪い。したがって、増粘性も悪く、転写性能も悪いという結果になることを発見した。
【００１６】
【化４】

【００１７】
（請求項２の発明）
請求項２の発明は、請求項１の発明における粉体において、吸水性ポリマと水素結合を形成し得るアルキル化合物を吸水性ポリマに対して１５％〜６０％含ませた粉体としたもので、このようにすると画像転写性、耐湿性能の良い、吸水性粉体になることを発見した。１５％以下であると湿気に対して抵抗が弱くなる、すなわち、耐湿性が悪くなる。また、６０％以上含有させると、画像転写性が悪くなり、望ましくない。
【００１８】
（請求項３の発明）
請求項３の発明は、請求項１の発明における粉体の粒子径を０.１μｍ〜１０μｍとしたもので、粉体の粒径が前記のごとき０.１μｍ〜１０μｍ範囲にあると、粉体の比表面積が大きいため液滴と接触性が良く、このため、すばやく該液滴と反応、高粘度化し、画像転写性の良い状態になる。当該粉体の粒径は大きすぎると液滴との接触性が劣るため液滴との反応が遅く、増粘効果が瞬時にえられず、転写体上での画像精度が保たれない。また、小さすぎると人体に取り込まれるなどの環境安全性が問題となる。
【００１９】
図１は、本発明による記録方法及び該記録方法の実施に使用して好適な記録装置の一例を説明するための装置概略図で、以下、図１により、本発明の動作の概略を説明する。図１において、１はインクジェット記録ヘッドで、該インクジェット記録ヘッド１で画像信号に応じてインク液体を中間転写媒体が最表面に形成されている中間転写体ベルト２に付与する。この中間転写体ベルト２は３本のローラ３，４，５の間をエンドレスに駆動搬送されている。中間転写体ベルト２上に形成されているインク液体による画像及びエンボシング効果粉体付着可能な画像を形成している中間転写媒体が、被記録体トレイ６から給紙ローラ７，８，９，１０，１１及びレジストローラ１２，１３によって搬送された被記録体に転写加圧ローラ１４で転写される。ついで、前記インク液体による画像及び該画像を形成している中間転写媒体が転写された被記録体は排紙ローラ１５，１６によって排紙トレイ１７に排紙される。
【００２０】
中間転写体ベルト２の最表面には、中間転写媒体容器１８内の中間転写媒体が塗布量制御ブレード１９で塗布量を制御した塗布補助ローラ２０及び塗布ローラ２１で塗布される。前記中間転写体ベルト２上に形成されているインク液体による画像及び該画像を形成している中間転写媒体の被記録体への転写後の中間転写体ベルトの最表面に残存している中間転写媒体は必要に応じてクリーニンングローラ２２、クリーニングブレード２３，２４によってクリーニングされ、その後、塗布ローラ２１により再び、中間転写媒体の塗布が行なわれる。
【００２１】
（実施例１）
・液体による記録装置：請求項１の記載の方法による中間転写型インクジェッ
トプリンター、
・インク：ＩＰＳｉＯ ＪＥＴ３００用、
・記録紙：上質紙（リコーＰＰＣ用紙）、
・該粉体：吸水性、増粘性粉体である請求項１の（ａ）のポリアクリル酸にそ
れと水素結合を形成する請求項１の（Ａ）の１，２−ドデシルジオール化合物を３０
％含有させた吸水性粉体、
・紙への画像形成方法：図１のごとく（画像形成方法）、撥水部材の中間転写
体ベルトに上記のように調整した該粉体を塗布し、普通紙に画像を形成した
。
・結果：従来の普通紙へのＩＪ（インクジェット）プリンターに比べ、滲み，
裏映りのない、さらに、耐水性の良い画像が形成できた。そして、湿気の影
響をほとんど受けないため、６ヶ月以上放置の利用にも対応できた。
【００２２】
（比較例１）
液体による記録装置，インク，記録紙，画像形成方法は実施例１と同じ。
・該粉体：実施例１のポリアクリル酸に１，２−ドデシルジオール化合物を含
有させなかったもの。
・結果：利用開始直後には良好な画像が得られるが、１ヶ月以内で良好な画像
を得ることはできなくなった。
【００２３】
（実施例２）
液体による記録装置，インク，記録紙，画像形成方法は実施例１と同じ。
・該粉体：吸水性，増粘性粉体である請求項１の（ｂ）のポリアクリル酸とポ
リアクリル酸ソーダの共重合体化合物に、それと水素結合を形成する請求項
１の（Ｂ）のステアリン酸化合物３５％を含有させた吸水性粉体。
・結果：高品質な画像が形成でき、６ヶ月以上の連続使用、放置後の使用にお
いても、初期と同等の転写画像を得ることができた。
【００２４】
（実施例３）
液体による記録装置，インク，記録紙，画像形成方法は実施例１と同じ。
・該粉体：吸水性，増粘性粉体である請求項１の（ｃ）のポリアクリル酸とポ
リアクリルアミドの共重合体化合物に、それと水素結合を形成する請求項１
の（Ｃ）のステアリン酸アミド化合物３０％を含有させた吸水性粉体。
・結果：高品質な画像が形成でき、６ヶ月以上の連続使用、放置後の使用にお
いても、初期と同等の転写画像を得ることができた。
【００２５】
（実施例４）
液体による記録装置，インク，記録紙，画像形成方法は実施例１と同じ。
・該粉体：吸水性，増粘性粉体である請求項１の（ｄ）のポリアクリル酸とポ
リアクリル酸ソータとポリアクリルアミドの共重合体化合物に、それと水素
結合を形成する請求項１の（Ｄ）のステアリルベンゼンカルボン酸化合物２５％を含
有させた吸水性粉体。
・結果：高品質な画像が形成でき、６ヶ月以上の連続使用、放置後の使用にお
いても、初期と同等の転写画像を得ることができた。
【００２６】
（実施例５）
液体による記録装置，インク，記録紙，画像形成方法は実施例１と同じ。
・該粉体：吸水性，増粘性の粉体である、請求項１の（ｅ）のポリアクリル酸
アミド化合物に、それと水素結合を形成し得る請求項１の（Ｅ）のエトキシ
，ラウリルベンゼン化合物を３０％含有させた吸水性粉体。
・結果：高品質な画像が形成でき、６ヶ月以上の連続使用、放置後の使用にお
いても、初期と同等の転写画像を得ることができた。
【００２７】
【発明の効果】
（請求項１の発明の効果）
従来に比べて普通紙における滲みが飛躍的に抑えられ、シャープネスの高い画像が得られる。さらに、湿気に対して強い抵抗力があり、長期間の使用においても初期と同じ品質の良い画像を得ることができる。
吸水性ポリマと水素結合を形成し得るアルキル化合物を含有させることによる長期間の使用において品質の良い画像形成のできる記録方法，装置を提供できる。
【００２８】
（請求項２の発明の効果）
吸水性ポリマと水素結合を形成し得るアルキル化合物を含有させることによる長期間の使用において品質の良い画像形成のできる記録方法，装置を提供できる。
【００２９】
吸水性ポリマとしてポリアクリル酸，ポリアクリルアミド，ポリアクリル酸ソーダ及び各々の二元共重合体，三元共重合体を利用することにより、アルキル化合物を含有させた吸水性粉体を作り、これを利用することにより、長期の使用においても品質の良い画像形成のできる記録方法を提供できる。
【００３０】
吸水性ポリマにそれと水素結合を形成し得るアルキル化合物を含有させることにより吸水性粉体を作り、その粉体の利用により、長期間の使用においても品質の良い画像形成のできる記録方法を提供することができる。
【００３１】
（請求項２の発明の効果）
請求項１の吸水性ポリマにそれと水素結合を形成し得るアルキル化合物を１５％〜６０％で含有させることにより耐湿性の良い画像形成と、その画像の記録媒体への転写性の良い性能が得られ、長期間の使用においても品質の良い画像形成のできる記録方法を提供する。
【００３２】
（請求項３の発明の効果）
請求項１の発明において、液滴より小さい径の粉体を用いることにより画像解像度を損なわずに、速度の速い吸水（吸インク）を達成し、高速画像形成のできる記録方法を提供できる。
【図面の簡単な説明】
【図１】 本発明による記録方法及び該記録方法の実施に使用して好適な記録装置の一例を説明するための装置概略構成図である。
【符号の説明】
１…記録ヘッド、２…中間転写体ベルト、３，４，５…ローラ、６…被記録体トレイ、７，８，９，１０，１１…給紙ローラ、１２，１３…レジストローラ、１４…転写加圧ローラ、１５，１６…排紙ローラ、１７…排紙トレイ、１８…中間転写媒体、１９…ブレード、２０…塗布補助ローラ、２１…中間転写媒体塗布ローラ、２２…クリーニングローラ、２３，２４…クリーニングブレード。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording method for a transfer-type inkjet printer that ejects ink droplets from a recording head to form an ink image on a transfer medium, and then transfers the ink image to the recording medium to obtain the ink image on the recording medium.
[0002]
[Prior art]
A recording method that performs recording by ejecting a liquid containing a colorant as droplets according to an image signal, as in inkjet recording, is excellent in that the mechanism is simple and noise is not generated. For example, in addition to the problem in print quality that the print state is different due to the difference in the paper quality of the transfer paper, there is a problem that the recording image in the undried state is disturbed when the transfer paper is discharged. .
[0003]
As a recording apparatus that has attempted to solve such a problem, an intermediate transfer system that once forms an ink image on an intermediate transfer medium by an ink jet recording system, and then transfers the ink image from the intermediate transfer medium onto the recording medium. A so-called method has been proposed (US Pat. Nos. 4,538,156 and 5,099,256).
[0004]
However, in the above method, the ink droplets ejected on the intermediate transfer medium are formed if the position and shape of the ink droplets are unreasonably spread or flow on the intermediate transfer medium and the position and shape thereof are changed greatly. Printing is disturbed. Such a phenomenon is called “repellency” of ink. If a “repelling” phenomenon occurs, where the dot is unreasonably spread or flows from the area where the dot should be formed, and its position and shape change, it will not be possible to obtain good printing on the recording medium. .
[0005]
In order to solve this problem, the invention described in Japanese Patent Application Laid-Open No. 62-92949 discloses that ink droplets are once ejected onto a transfer medium, where most of the water in the ink droplets is evaporated and concentrated. Is transferred onto a recording medium such as paper. Thus, although this has the advantage of enabling a clear image formation, it takes time to concentrate the ink, so that it can not sufficiently meet the demand for high-speed printing. Have a problem.
[0006]
In the invention described in Japanese Patent Laid-Open No. 3-55283, the ink ejected onto the ink transfer member of the ink repellent member is partially cooled to change and fix the ink repellency. Furthermore, recording is performed by increasing the viscosity of the ink by local cooling. Since this requires time for the cooling process as in the invention described in Japanese Patent Application Laid-Open No. 62-92849, a problem remains in high-speed printing.
[0007]
Japanese Laid-Open Patent Publication No. 7-145576 discloses a transfer medium in which the ink is processed so that the print quality does not depend on the difference in the recording medium, and only the image portion can be separated. However, since the transfer is performed at 200 ° C. to 300 ° C. as the softening temperature of the separation layer, problems remain in high-speed recording performance and system reliability.
[0008]
In addition, the present inventors have invented a transfer type recording method using a water-absorbing polymer as a transfer medium by forming a salt by using a lipophilic amine to form a water-resistant powder. However, these lipophilic amines have excellent water resistance, but are strongly bonded to the water-absorbing polymer, so that the degradation of the image quality due to the residual transfer and the deterioration of the system in order to degrade the solubility in ink. There was a problem with reliability.
[0009]
[Problems to be solved by the invention]
The present invention was made for the purpose of performing high-speed recording using inkjet recording, and forms a clear image instantaneously on a transfer medium, and is excellent in water resistance without bleeding or showing back on recording paper. A new intermediate transfer recording method that enables stable operation over a long period of time by forming a transferred image and using a powder having moisture resistance, good ink absorption and good transfer performance as a member of the transferred image. Is to provide.
[0010]
[Means for Solving the Problems]
Dissolved or swelled by the application of liquids, and the viscosity of the liquid is raised, a powder having a characteristic of improving the releasability from the middle between the transfer member, after applying a layer in advance the intermediate transfer member surface, the liquid was applied over the powder, and forms an image corresponding to the image signal on a middle between the transfer member,
The recording method of transferring the image on a recording medium, wherein the powder comprises a suction ink resistance and thickening against the ink, a powder having a low hygroscopicity against moisture, the powder includes a water-absorbing polymer, which is characterized by containing a said polymer and alkyl compound capable of forming a hydrogen bond, by using a powder showing a water-absorbing and thickening to ink, transfer medium Without requiring the above concentration time, the blurring of the image due to the repelling is suppressed, and the show-through is suppressed in the transferred image. Furthermore, since the alkyl compound contained by forming a hydrogen bond is lipophilic and water-repellent, the moisture resistance of the water-absorbing polymer can be remarkably improved. However, since the bond is a hydrogen bond, This alkyl compound can easily separate from a polymer for a large amount of water, and the ink absorption has the property of returning to the same property as a water-absorbing polymer that does not contain an alkyl compound, and has good moisture resistance and ink absorption. Therefore, the powder has a good image transfer performance. By utilizing this, it is possible to provide a new intermediate transfer recording apparatus capable of stable operation over a long period of time.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
(Invention of Claim 1)
Dissolved or swelled by the application of liquids, and the viscosity of the liquid is raised, a powder having a characteristic of improving the releasability from the middle between the transfer member, after applying a layer in advance the intermediate transfer member surface, the liquid was applied over the powder, and forms an image corresponding to the image signal on a middle between the transfer member,
The recording method of transferring the image on a recording medium, wherein the powder comprises a suction ink resistance and thickening against the ink, a powder having a low hygroscopicity against moisture, the powder includes a water-absorbing polymer, is a recording method characterized in that it contains an alkyl compound capable of forming the polymer and hydrogen bonds, which is present inventors, the conventional ink jet recording method and apparatus Various methods for solving the drawbacks are studied, and a powder that can be dissolved or swollen with ink droplets on the recording paper in advance and that can be removed from the recording paper is formed on the entire surface of the recording paper, and the droplets reach the recording paper. Later, it was found that by removing the member, it was possible to perform recording with minimal ink bleeding, excellent water resistance, and excellent storability of paper after printing. In addition, the present inventors have applied the recording method using powder as described above to a recording method and apparatus using an intermediate transfer member, and in high-quality, high-speed recording inkjet recording with less bleeding, regardless of paper quality. It was possible. Furthermore, the inventors of the present invention provide a powder that has good ink absorbability and thickening with respect to the ink droplets on the transfer body, and therefore has good image transferability and almost no hygroscopicity with respect to moisture. By using, we have made it possible to use it stably for long-term changes in usage environment.
[0012]
In particular, the present invention relates to a composition of a powder having an ink-absorbing property and a thickening property with respect to an ink and having almost no moisture-absorbing property with respect to moisture, and an alkyl capable of forming a hydrogen bond between the water-absorbing polymer and the polymer. It is characterized by comprising a powder containing a compound. Therefore, the water-absorbing polymer powder is very weak against moisture and cannot maintain powder properties when exposed to a high humidity atmosphere, thereby making it impossible to form images repeatedly and stably over a long period of time. . Therefore, it is necessary to develop a polymer powder that is moisture resistant and has good ink absorption. As a method for improving moisture resistance without affecting image formation, the present inventors have made various studies to solve this problem. As a method for improving moisture resistance, an atomic group capable of forming a hydrogen bond with the polymer in a water-absorbing polymer. It was discovered that the inclusion of an alkyl molecule having a certain molecular weight and having a molecular weight makes it possible to produce a water-absorbing polymer powder having good image quality and moisture resistance. As a result, it has become possible to provide a recording method and apparatus that can withstand long-term stable use that is resistant to environmental changes.
[0013]
Contact Keru water absorbent polymer in the present invention is any, polyacrylic acid, polyacrylamide, sodium polyacrylate powder represented by the chemical structural formula shown below (a) ~ (e), or , Each copolymer polymer, each having an atomic group capable of forming a hydrogen bond, this substance reacts with water to thicken, and the one containing an appropriate amount of water is another support. It becomes very easy to adhere to the body, and the transfer performance of water-containing polymer is very good.
[0014]
[Chemical 3]

[0015]
Furthermore, as an atomic group capable of forming a hydrogen bond with the water-absorbing polymer in the present invention, an alcohol group, a diol group, a carboxyl group, an ester group, represented by the chemical structural formulas shown in the following (A) to (E), There are ether groups, amide groups, and benzene carboxylic acid groups, and those in which an alkyl compound having a large number of carbon atoms is bonded to these atomic groups will exhibit water repellency due to the nature of the alkyl group, and this compound element is added. The water-absorbing polymer prevents moisture from adding to the atomic group having the hydrogen bonding ability of the water-absorbing polymer powder due to the water repellency. For this reason, resistance with respect to moisture becomes very large, and moisture resistance can be greatly improved. The binding mode of this added, when in contact with large amounts of water because of the hydrogen bonding, since atomic group bonded with hydrogen bonds to replace state easily added water molecules, before modification of the water The water-absorbing property, viscosity increase, and image transfer properties are the same as before adding the alkyl compound. That is, it is possible to produce a water-absorbing polymer powder having good moisture resistance, good water absorption and thickening, and a high-quality transfer image. Further, when this bond is an ionic bond type or a covalent bond mode, the moisture resistance is improved, but the water absorption is poor because the polymer does not return to the pre-treatment polymer due to the action of a large amount of water. Therefore, it has been found that the thickening is poor and the transfer performance is also poor.
[0016]
[Formula 4]

[0017]
(Invention of Claim 2 )
The invention of claim 2 is the powder of the invention of claim 1 , wherein the powder contains 15% to 60% of an alkyl compound capable of forming a hydrogen bond with the water absorbent polymer. In this way, it was found that the water-absorbent powder has good image transferability and moisture resistance. If it is 15% or less, resistance to moisture becomes weak, that is, moisture resistance deteriorates. On the other hand, if the content is 60% or more, the image transferability is deteriorated, which is not desirable.
[0018]
(Invention of Claim 3 )
According to a third aspect of the present invention, when the particle diameter of the powder in the first aspect of the invention is 0.1 μm to 10 μm and the particle diameter of the powder is in the range of 0.1 μm to 10 μm as described above, the powder Because of its large specific surface area, the contact property with the droplets is good. For this reason, it quickly reacts with the droplets, increases its viscosity, and has a good image transferability. If the particle size of the powder is too large, the contact with the droplets is poor, the reaction with the droplets is slow, the thickening effect cannot be obtained instantaneously, and the image accuracy on the transfer body cannot be maintained. Moreover, if it is too small, environmental safety such as being taken into the human body becomes a problem.
[0019]
FIG. 1 is an apparatus schematic diagram for explaining an example of a recording method according to the present invention and a recording apparatus suitable for use in the implementation of the recording method. Hereinafter, the outline of the operation of the present invention will be described with reference to FIG. . In FIG. 1, reference numeral 1 denotes an ink jet recording head. The ink jet recording head 1 applies an ink liquid to an intermediate transfer body belt 2 having an intermediate transfer medium formed on the outermost surface in accordance with an image signal. This intermediate transfer belt 2 is driven and conveyed between the three rollers 3, 4 and 5 in an endless manner. The intermediate transfer medium on which the image formed by the ink liquid formed on the intermediate transfer body belt 2 and the image on which the embossing effect powder can be adhered is formed is fed from the recording medium tray 6 to the paper feed rollers 7, 8, 9, 10. , 11 and registration rollers 12 and 13 are transferred to a recording medium by a transfer pressure roller 14. Subsequently, the recording medium onto which the image by the ink liquid and the intermediate transfer medium forming the image are transferred are discharged to a discharge tray 17 by discharge rollers 15 and 16.
[0020]
The intermediate transfer medium in the intermediate transfer medium container 18 is applied to the outermost surface of the intermediate transfer belt 2 by a coating auxiliary roller 20 and a coating roller 21 whose coating amount is controlled by a coating amount control blade 19. Intermediate transfer remaining on the outermost surface of the intermediate transfer belt after transfer of the image formed by the ink liquid formed on the intermediate transfer belt 2 and the intermediate transfer medium forming the image onto the recording medium The medium is cleaned by the cleaning roller 22 and the cleaning blades 23 and 24 as necessary, and then the intermediate transfer medium is applied again by the application roller 21.
[0021]
(Example 1)
Liquid recording apparatus: an intermediate transfer type ink jet printer according to the method of claim 1;
・ Ink: for IPSiO JET300
・ Recording paper: high-quality paper (Ricoh PPC paper),
- The powder: water absorption, increasing viscous powder is according to claim 1 it in the polyacrylic acid bets of claim 1 to form hydrogen bonds (a) 1,2-dodecyl-diol compound of (A) 30
% Water-absorbing powder,
Image formation method on paper: As shown in FIG. 1 (image formation method), the powder prepared as described above was applied to the intermediate transfer belt of the water-repellent member to form an image on plain paper.
・ Result: Compared with the conventional IJ (inkjet) printer on plain paper,
An image with no show-through and good water resistance could be formed. And since it was hardly affected by moisture, it could be used for more than 6 months.
[0022]
(Comparative Example 1)
The liquid recording apparatus, ink, recording paper, and image forming method are the same as those in the first embodiment.
-The powder: the polyacrylic acid of Example 1 not containing a 1,2-dodecyldiol compound.
・ Result: Immediately after the start of use, a good image was obtained, but a good image could not be obtained within one month.
[0023]
(Example 2)
The liquid recording apparatus, ink, recording paper, and image forming method are the same as those in the first embodiment.
The powder is a water-absorbing and thickening powder. Claim 1. Forming hydrogen bonds with the copolymer compound of polyacrylic acid and sodium polyacrylate in (b).
1. A water-absorbing powder containing 35% of ( B ) stearic acid compound.
Result: A high-quality image could be formed, and a transferred image equivalent to the initial one could be obtained even after 6 months of continuous use or use after standing.
[0024]
(Example 3)
The liquid recording apparatus, ink, recording paper, and image forming method are the same as those in the first embodiment.
· The powder: Claim forming absorbent, a copolymer compound of polyacrylic acid and polyacrylamide in (c) according to claim 1 is a thickening powder therewith hydrogen bonds 1
( C ) Water-absorbing powder containing 30% of stearamide compound.
Result: A high-quality image could be formed, and a transferred image equivalent to the initial one could be obtained even after 6 months of continuous use or use after standing.
[0025]
Example 4
The liquid recording apparatus, ink, recording paper, and image forming method are the same as those in the first embodiment.
· The powder: water absorption, copolymer compound of polyacrylic acid and port Riakuriru acid sorter and polyacrylamide in (d) of claim 1 is a thickening powder therewith in claim 1 to form a hydrogen bond A water-absorbing powder containing 25% of the stearylbenzenecarboxylic acid compound (D) .
Result: A high-quality image could be formed, and a transferred image equivalent to the initial one could be obtained even after 6 months of continuous use or use after standing.
[0026]
(Example 5)
The liquid recording apparatus, ink, recording paper, and image forming method are the same as those in the first embodiment.
- The powder: water absorption, a powder of thickening, ethoxy polyacrylic acid amide compound of claim 1 (e), the same of claim 1 capable of forming hydrogen bonds (E), lauryl benzene A water-absorbing powder containing 30% of a compound.
Result: A high-quality image could be formed, and a transferred image equivalent to the initial one could be obtained even after 6 months of continuous use or use after standing.
[0027]
【The invention's effect】
(Effect of the invention of claim 1)
Compared with the prior art, bleeding on plain paper is remarkably suppressed, and an image with high sharpness can be obtained. Furthermore, it has a strong resistance to moisture, and an image having the same quality as the initial image can be obtained even after long-term use .
By including an alkyl compound capable of forming a hydrogen bond with a water-absorbing polymer, it is possible to provide a recording method and apparatus capable of forming a high-quality image during long-term use .
[0028]
(Effect of the invention of claim 2)
By including an alkyl compound capable of forming a hydrogen bond with a water-absorbing polymer, it is possible to provide a recording method and apparatus capable of forming a high-quality image during long-term use.
[0029]
Polyacrylic acid as water absorbent polymers, polyacrylamide, sodium polyacrylate and each of the binary copolymer, by utilizing the terpolymer, make water-absorbing powder which contains the A alkyl compound, which the by utilizing, it can provide a recording how that can be image-forming quality even in long-term use.
[0030]
Was formed into water absorbent polymer therewith hydrogen bonds resulting luer alkyl compound to make a water-absorbing powder by containing chromatic, its through the use of the powder, the recording side can also good imaging quality in long-term use Law can be provided.
[0031]
(Effect of the invention of claim 2 )
And good image forming moisture resistance by containing a water-absorbing polymer according to claim 1 therewith to form hydrogen bonds resulting luer alkyl compound with 15% to 60%, the transfer of good performance on a recording medium of the image It is obtained, to provide a recording how that can be image-forming quality even in long-term use.
[0032]
(Effect of the invention of claim 3 )
In the invention of claim 1, without loss of image resolution by using the powder of smaller diameter than the droplets to achieve the fast velocity water (intake ink), it can provide a record how that can high-speed image formation.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram for explaining an example of a recording method according to the present invention and an example of a recording device suitable for use in the implementation of the recording method.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Recording head, 2 ... Intermediate transfer belt, 3, 4, 5 ... Roller, 6 ... Recording medium tray, 7, 8, 9, 10, 11 ... Feed roller, 12, 13 ... Registration roller, 14 ... Transfer pressure roller, 15, 16 ... paper discharge roller, 17 ... paper discharge tray, 18 ... intermediate transfer medium, 19 ... blade, 20 ... application auxiliary roller, 21 ... intermediate transfer medium application roller, 22 ... cleaning roller, 23, 24: Cleaning blade.

Claims (3)

A powder having characteristics that dissolve or swell by application of a liquid and increase the viscosity of the liquid and improve the releasability from the intermediate transfer body is applied in advance to the surface of the intermediate transfer body in a layered manner, and then the powder. In the recording method in which the liquid is applied onto a body, an image corresponding to an image signal is formed on an intermediate transfer body, and the image is transferred to a recording medium, the powder has an ink absorbability with respect to ink and comprising a thickening, a powder having a low moisture absorption to moisture, the powder, and characterized in that it contains the following water absorbing polymers, the following alkyl compound capable of forming the polymer and the hydrogen bond Recording method to do ;
The water-absorbing polymer is composed of any one of powders represented by the following chemical structural formulas (a) to (e) (where n and p are integers of 50 or more, m, o , M ′, m ″ are integers of 1 or more)

The alkyl compound is a material represented by chemical structural formulas shown in the following (A) to (E) (where n is 6 to 22, R1 is CH ₃ , C ₂ H ₅ , C ₃ H _7).

  2. The recording method according to claim 1, comprising a powder in which an alkyl compound capable of forming hydrogen bonds with the polymer is contained in a water-absorbing polymer in an amount of 15% to 60%.   2. The recording method according to claim 1, wherein the powder has a particle size of 0.1 [mu] m to 10 [mu] m.

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