JP3996299B2 - Recording method and apparatus - Google Patents

Description

【００１５】
参考例３として、液滴による記録装置としては、液滴の径が１００ミクロンの中間転写方式のインクジェットプリンターを、記録紙としては上質紙を用い、セット剤として５ミクロンのポリアクリル酸（ＰＡＡ；日本純薬社製）を用いた。図１に説明した装置を用い、中間転写ベルトに上記のように調整したセット剤を塗布し、図１に説明したプロセスにより上質紙に画像を形成してみた。形成された画像の耐光性評価は、キセノンランプで１００時間照射し、その後色調変化を目視により確認することとした。結果として、従来の普通紙へのインクジェット記録に比べ、滲み、裏映りがない画像が形成され、得られた記録体はキセノンランプ照射後の変退色は小さく、保存安定性に優れていた。参考例３の比較例として、液滴による記録装置としては、液滴の径が１００ミクロンの中間転写方式のインクジェットプリンターを、記録紙としては上質紙を用い、セット剤として６０ミクロンのポリアクリル酸（ＰＡＡ；日本純薬社製）を用いた。図１に説明した装置を用い、中間転写ベルトに上記のように調整したセット剤を塗布し、図１に説明したプロセスにより上質紙に画像を形成してみた。形成された画像の耐光性評価は、キセノンランプで１００時間照射し、その後色調変化を目視により確認することとした。結果として、中間転写ベルト上の画像が滲み、従来の普通紙へのインクジェット記録に比べ、良好な画像が得られなかった。又、色調の変化が確認され保存安定性が悪いことが明らかになった。
【００１６】
請求項１に係る記録方法によれば、普通紙における液滴の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ことになり、更に使用可能なインクのＰＨ範囲が広く信頼性が高い記録方法を提供することができ、更に、高濃度の塩溶液に対しても増粘膨張特性を発揮することとなり、更にインクの設計の選択幅が広がり、システムとしての信頼性が向上するとともに、増粘効果が高く印字品質が飛躍的に向上する記録方法を提供することができる。
【００１７】
請求項２に係る記録方法によれば、親水性材料の湿潤環境下における保存性に効果があり、画像形成の再現性に優れた記録方法を提供することができる。また、請求項３に係る記録装置によれば、滲み、裏映りのない画像を形成することができる。
【図面の簡単な説明】
【図１】本発明による記録方法及び装置の一例を説明するための装置概略図である。
【符号の説明】
１０１ インクジェット記録
１０２ 中間転写体ベルト
１０３ ローラ
１０４ ローラ
１０５ ローラ
１０６ 給紙トレイ
１０７ 給紙ローラ
１０８ 給紙ローラ
１０９ 給紙ローラ
１１０ 給紙ローラ
１１１ 給紙ローラ
１１２ レジストローラ
１１３ レジストローラ
１１４ 転写加圧ローラ
１１５ 排紙ローラ
１１６ 排紙ローラ
１１７ 排紙トレイ
１１８ 中間転写媒体容器
１１９ 塗布量制御ブレード
１２０ 塗布補助ローラ
１２１ 塗布ローラ
１２２ クリーニングローラ
１２３ クリーニングブレード[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording method and apparatus using a liquid applying apparatus, and in particular, by applying a liquid applied from a liquid applying apparatus according to an image signal onto an intermediate transfer medium formed on an intermediate transfer member. The present invention relates to a so-called intermediate transfer type recording method and apparatus for forming an image on an intermediate transfer member and then transferring the image onto a recording material such as transfer paper.
[0002]
[Prior art]
As in the ink jet recording method, a recording method for recording a liquid containing a colorant as a droplet according to an image signal is excellent in that it has a relatively simple device configuration, is small and light, and is low in noise. However, there is a problem in print quality that the print state is different due to the difference in the recording material, for example, the difference in paper quality such as OHP, synthetic paper, plain paper, and inkjet special paper. In particular, when printing on plain paper with a general-purpose water-soluble ink, there is a problem that the resolution of the printing is lowered due to the spread of the print or the penetration of the image to the back of the recording paper, so-called show-through. . Further, depending on the drying property of the ink on the recording medium after printing, there is a problem that the printed image in an undried state is disturbed when the recording medium is discharged.
To solve such a problem, an intermediate transfer method is proposed in which an ink image is once formed on an intermediate transfer member by an ink jet recording method, and then the ink image is transferred to a recording material (US Pat. No. 4,538,156). Publication, US Pat. No. 5,099,256). In general, such an intermediate transfer system has a feature that the recording head can be arranged away from the recording medium, and the recording head can be prevented from being clogged due to adhesion of paper dust or the like. However, when ink droplets are applied on the intermediate transfer member, the recording position or the shape of the recording may change due to unreasonable spreading or flow on the intermediate transfer member. In this case, it is necessary to resolve the occurrence of image disturbance due to color mixture, the transfer efficiency to the recording medium such as paper, the image quality on the recording medium, for example, the blurring or the show-through of the image, etc. There were many problems that could not be avoided.
In order to deal with such problems, Japanese Patent Application Laid-Open No. 7-32721 discloses that ink droplets are once ejected onto a transfer medium, where solvent components in the ink droplets are evaporated, and concentrated ink or the like is removed from the paper. And the like that are transferred onto a recording medium. This has the advantage of enabling clear image formation, but has a problem to be solved that it cannot sufficiently meet the demand for high-speed printing because it takes time to concentrate the ink. .
[0003]
As a solution to these problems, Japanese Patent Application Laid-Open No. Sho 62-92949 discloses that ink droplets are once applied onto an intermediate transfer member, and most of the water in the ink droplets is evaporated on the intermediate transfer member to concentrate it. A method is disclosed in which only the ink is transferred to a recording material such as paper. Although this method has the advantage of enabling clear image formation, it requires time, heat energy and prevention of evaporation and scattering of water to concentrate the ink. As a result, high-speed printing, energy saving, and higher resolution are required. It has the disadvantage of not being able to fully meet the demand for conversion.
JP-A-3-55283 discloses ink repellency by partially cooling the ink discharged onto the ink transfer member of the ink-repellent member, as in JP-A-62-92949. It is known that recording is performed by changing and fixing and increasing the viscosity of the ink by local cooling. However, even in this example, the cooling process takes time, so that a problem remains in terms of high-speed printing.
Further, Japanese Patent Laid-Open No. 7-145576 discloses a transfer medium in which ink is processed so that the print quality does not depend on the difference in recording material and only the image portion can be separated. This is because the transfer is performed at 200 to 300 degrees as the softening temperature of the separation layer, so that problems remain in high-speed recording performance and system reliability.
In addition, dye-based inks have high chroma and clear color tone, but are inferior in fastness such as water resistance and light resistance. Of these, Japanese Patent Application Laid-Open No. 54-68303 discloses an ink containing an organic water-soluble ultraviolet absorber. However, these are insufficient in terms of clogging and ejection stability in the ink jet recording method for ejecting ink droplets.
[0004]
[Problems to be solved by the invention]
In view of the prior art as described above, the present applicant applies liquid to the intermediate transfer member in accordance with an image signal to form an image on the intermediate transfer member, and then places the image on the recording medium. In the recording method for transfer, a powder layer that can be dissolved or swelled by the liquid in advance and can increase the viscosity of the liquid and can be peeled off from the intermediate transfer body is formed on the intermediate transfer body. An intermediate transfer recording method and apparatus using a highly water-absorbing polymer powder as a possible intermediate transfer medium has been proposed (Japanese Patent Application No. 9-359208).
The object of the present invention is based on the above proposals, and further improvements and ingenuity are added to improve transfer efficiency, to increase the resolution of the image on the recording medium after transfer, to prevent image blurring, to prevent color mixing of colors, It is another object of the present invention to provide an intermediate transfer recording system and recording apparatus that can form a transfer image that eliminates back surface shift, has water resistance, and is excellent in light resistance.
[0005]
[Means for Solving the Problems]
The recording method of the present application is a recording method in which a liquid is applied on an intermediate transfer body according to an image signal, an image is formed on the intermediate transfer body, and then the image is transferred to a recording medium, A layer of a material that exhibits water absorption and viscosity with respect to the liquid in advance and that can be peeled off from the intermediate transfer member is formed on the intermediate transfer member. In the recording method of forming an image and then transferring the image formed on the intermediate transfer member to a recording medium, the material exhibiting water absorption and thickening with respect to the liquid is a monomer containing acetamide and a carboxyl group A material containing acetamide and a monomer containing a carboxyl group, a copolymer of a polymer containing acetamide and at least one monomer containing a carboxyl group Others characterized in that it is a mixture of at least one polymer containing a polymer and a carboxyl group containing the acetamide.
[0006]
In the above recording method, the polymer comprising at least one monomer containing a carboxyl group is a polymer or a crosslinked product, and a part of the polymer or crosslinked product is salted with a lipophilic aliphatic amine or aromatic amine. It is formed.
[0007]
The recording apparatus of the present application is a recording apparatus that applies liquid onto an intermediate transfer body in accordance with an image signal, forms an image on the intermediate transfer body, and then transfers the image to a recording medium, A material forming means for forming a layer of a material that exhibits water absorption and viscosity with respect to the liquid in advance on the intermediate transfer body and is peelable from the intermediate transfer body; and the intermediate transfer by applying the liquid on the material In a recording apparatus having an image forming means for forming an image on a body and a transfer means for transferring the image formed on the intermediate transfer body to a recording medium, a layer of a material formed by the material forming means Has a material containing a monomer containing acetamide and a carboxyl group, and the material containing a monomer containing acetamide and a carboxyl group contains a polymer containing acetamide and a carboxyl group Without even wherein the at least one mixture of polymers containing polymer and a carboxyl group containing one copolymer or the above acetamide and monomer.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
In light of the shortcomings of the inkjet recording method and apparatus using the conventional intermediate transfer method, the present inventor has made extensive efforts and applied liquid to the intermediate transfer body in accordance with the image signal to form an image on the intermediate transfer body. Then, in the recording method for transferring the image onto a recording medium, the liquid can be dissolved or swelled in advance by the liquid on the intermediate transfer body, the viscosity of the liquid can be increased, and the intermediate transfer As an intermediate transfer medium that can form a layer of powder that can be peeled off from the body, it does not require time for concentration on the transfer medium by using a powder that absorbs water and thickens ink. , The blurring of the image was suppressed, and the back image was eliminated from the transferred image. Furthermore, by containing an ultraviolet absorber in the powder on the intermediate transfer member, the light fastness of the recorded image is improved, and by containing the ultraviolet absorber in the ink, clogging of the inkjet head is prevented. The present invention has succeeded in providing a recording method and apparatus that can perform recording.
FIG. 1 is an apparatus schematic diagram for explaining an example of a recording method and apparatus according to the present invention. With reference to FIG. 1, an outline of the basic configuration and operation of the present invention will be described.
First, an intermediate transfer medium (hereinafter referred to as a set agent) (not shown) is applied and formed on the intermediate transfer belt 102. Specifically, the set agent in the set agent container 118 is applied to the surface of the intermediate transfer belt 102 by the application amount control blade 119 and applied via the application auxiliary roller 120 and the application roller 121. . Next, ink droplets are ejected by the inkjet recording head 101 in accordance with the image signal. The intermediate transfer belt 102 is configured to endlessly rotate between three rollers 103, 104, and 105, and to convey the applied set agent and an image printed on the set agent. . The image formed by the ink droplets formed on the intermediate transfer belt 102 and the set agent for the image portion are fed from the paper feed tray 106 by paper feed rollers 107, 108, 109, 110, 111 and registration rollers 112, 113. The image is transferred by a transfer pressure roller 114 onto the surface of the conveyed recording medium (hereinafter referred to as recording paper). Next, the recording sheet onto which the image formed by the ink droplets and the set agent of the image portion are transferred is discharged onto a discharge tray 117 by discharge rollers 115 and 116. After the image formed by the ink droplets formed on the intermediate transfer belt 102 and the set agent of the image portion are transferred to the recording paper, the set agent remaining on the surface of the intermediate transfer belt is used as necessary. Cleaning is performed by the cleaning roller 122 and the cleaning blades 123 and 124, and then the set agent is applied again.
[0010]
Hereinafter, the present invention will be described based on specific embodiments and comparative examples.
In the first embodiment, an ink jet printer using an intermediate transfer method is used as a recording apparatus using droplets, and ink is used in an Ishio Jet 300 (trademark) manufactured by Ricoh. Using. High quality paper was used as the recording paper, and a mixture of polyvinyl acetamide (manufactured by Showa Denko KK) and polyacrylic acid (manufactured by Nippon Pure Chemical Co., Ltd.), which is a set agent exhibiting water absorption and viscosity, was used as the set agent. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. In the evaluation of the formed image, the blur and color tone of the image were confirmed visually. As a result, it has been clarified that any of the PH inks can form an image having no bleeding and show-through compared to the conventional inkjet recording on plain paper.
As a comparative example of the first embodiment, as a recording apparatus using droplets, an intermediate transfer type ink jet printer was used, and ink used for Ricoh's Ypsio Jet 300 (trademark) and having a pH of 7 was used. . High-quality paper was used as the recording paper, and polyvinyl alcohol, which is a setting agent exhibiting water absorption and viscosity increase, was used as the setting agent. Using the apparatus described in FIG. 1, the above set agent was applied to an intermediate transfer belt, and an image was formed on high-quality paper by the process described in FIG. In the evaluation of the formed image, the blur and color tone of the image were confirmed visually. As a result, the effect of the penetrating agent was reduced compared with the conventional inkjet recording on plain paper, and bleeding was confirmed in the image. In addition, the transferability was also deteriorated.
[0011]
Next, as a second embodiment, as a recording apparatus using droplets, an intermediate transfer type ink jet printer is used, and ink used for Ricoh's Ypsio Jet 300 (trademark) and having a PH of 10 is used. . High-quality paper was used as the recording paper, and the setting agent used was a copolymer of polyvinyl acetamide (made by Showa Denko KK) and polyacrylic acid (made by Nippon Seiyaku Co., Ltd.), which is a set agent exhibiting water absorption and viscosity. . Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. In the evaluation of the formed image, the blur and color tone of the image were confirmed visually. As a result, it has been clarified that an image having no bleeding and show-through is formed as compared with the conventional inkjet recording on plain paper.
As a comparative example of the second embodiment, as a recording apparatus using droplets, an intermediate transfer type ink jet printer was used, and ink used for Ricoh's Ypsio Jet 300 (trademark) was used. High-quality paper was used as the recording paper, and polymethylcellulose, which is a set agent exhibiting water absorption and viscosity increase, was used as the set agent. Using the apparatus described in FIG. 1, the above set agent was applied to an intermediate transfer belt, and an image was formed on high-quality paper by the process described in FIG. In the evaluation of the formed image, the blur and color tone of the image were confirmed visually. As a result, bleeding was confirmed in the image as compared with the conventional inkjet recording on plain paper. In addition, the transferability was also deteriorated.
[0012]
As Reference Example 1 , an intermediate transfer type ink jet printer is used as a recording apparatus using droplets, high-quality paper is used as recording paper, and polyacrylic acid (manufactured by Nippon Seiyaku Co., Ltd.) of Comparative Example 1 is used as a set agent. What mixed 1 wt% of DIC-TBS (made by Dainippon Ink and Chemicals) which is an absorber was used. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, compared to the conventional inkjet recording on plain paper, there is no bleeding, no show-back, and a light-resistant image is formed, and the obtained recording material is compared with the conventional setting agent containing no ultraviolet absorber. The color fading after irradiation with a xenon lamp was small, and the storage stability was excellent. As a comparative example of Example 1, as a recording apparatus according droplets, the ink jet printer of an intermediate transfer system, using a high quality paper as recording paper, do not want to contain an ultraviolet absorber as setting agents polyacrylic acid (Jun Japan Yakuhin). Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, compared to conventional inkjet recording on plain paper, an image with less bleeding was formed under low humidity, but it was found that the change in color tone was confirmed and storage stability was poor.
[0013]
As Reference Example 2 , an intermediate transfer ink jet printer is used as a recording apparatus using droplets, high-quality paper is used as recording paper, and polyacrylic acid of Comparative Example 1 (manufactured by Nippon Seiyaku Co., Ltd.) is used as a set agent. What mixed 1 wt% of cerium oxide (Nydral (manufactured by Taki Chemical Co., Ltd.)) as an absorbent was used. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, compared with the conventional inkjet recording on plain paper, there is no bleeding, no show-back, and a water-resistant image is formed. The recorded material had small color fading after irradiation with a xenon lamp and was excellent in storage stability. As a comparative example of Reference Example 2 , as a recording apparatus using droplets, an intermediate transfer type ink jet printer is used, a high quality paper is used as a recording paper, and a polyacrylic acid containing no UV absorber as a setting agent (Nippon Pure Chemicals Co., Ltd.) Made). Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, compared to conventional inkjet recording on plain paper, an image with less bleeding was formed under low humidity, but it was found that the change in color tone was confirmed and storage stability was poor.
[0014]
As a fifth embodiment, an intermediate transfer type inkjet printer is used as a recording apparatus using droplets, high-quality paper is used as recording paper, and polyacrylic acid (PAA; Nippon Pure) is used as an ink-absorbing set agent as a set agent. The amount of the lipophilic set agent stearylamine used for neutralization was 0 parts by weight, 1 part by weight, and 6 parts by weight with respect to 10 parts by weight of the hydrophilic set agent.
As a comparative example of the fifth embodiment, sodium polyacrylate (PAS) is used, and the amount of the lipophilic set agent stearylamine used for neutralization is 0 part by weight and 2 parts by weight with respect to 10 parts by weight of the hydrophilic set agent. The part. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. The evaluation of the formed image was confirmed visually. As shown in Table 1 below, when the salt ratio is 10 to 50%, the storage stability is maintained even when the set agent is wet, and there is no hindrance to image formation. Compared with ink jet recording, there was no bleeding or show-through, and water resistance was improved. At 60% or more, it was revealed that although the moisture resistance of the set agent and the water resistance of the image were improved, there was little improvement in the sharpness degree of the image. In addition, in the case of using sodium polyacrylate as the hydrophilic setting agent, the image quality on the intermediate transfer belt was lowered.
[Table 1]

[0015]
As a reference example 3, as a recording apparatus using droplets, an intermediate transfer type ink jet printer having a droplet diameter of 100 microns, high-quality paper as recording paper, and 5 micron polyacrylic acid (PAA; Nippon Pure Chemical Co., Ltd.) was used. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, compared to conventional inkjet recording on plain paper, an image free from bleeding and show-through was formed, and the obtained recording material had small discoloration after irradiation with a xenon lamp and was excellent in storage stability. As a comparative example of Reference Example 3 , as a recording apparatus using droplets, an intermediate transfer type ink jet printer having a droplet diameter of 100 microns, high-quality paper as recording paper, and 60 micron polyacrylic acid as a setting agent (PAA; manufactured by Nippon Pure Chemicals Co., Ltd.) was used. Using the apparatus described in FIG. 1, the set agent adjusted as described above was applied to the intermediate transfer belt, and an image was formed on the fine paper by the process described in FIG. Evaluation of light resistance of the formed image was performed by irradiating with a xenon lamp for 100 hours and then visually confirming a change in color tone. As a result, the image on the intermediate transfer belt bleeds out, and a good image cannot be obtained as compared with the conventional ink jet recording on plain paper. In addition, the change in color tone was confirmed, and it became clear that the storage stability was poor.
[0016]
According to the recording method of the first aspect, the bleeding of droplets on plain paper is drastically suppressed, an image with high sharpness can be obtained, and the usable ink has a wide PH range and high reliability. A recording method can be provided, and the viscosity expansion property can be exhibited even for a salt solution with a high concentration. Further, the selection range of the ink design is expanded, and the reliability as a system is improved. It is possible to provide a recording method that has a high thickening effect and greatly improves printing quality.
[0017]
According to the recording method of the second aspect, it is possible to provide a recording method that is effective in preserving the hydrophilic material in a wet environment and excellent in image formation reproducibility. Further, according to the recording apparatus of the third aspect, it is possible to form an image without bleeding and show-through.
[Brief description of the drawings]
FIG. 1 is an apparatus schematic diagram for explaining an example of a recording method and apparatus according to the present invention.
[Explanation of symbols]
101 Inkjet recording 102 Intermediate transfer belt 103 Roller 104 Roller 105 Roller 106 Feed tray 107 Feed roller 108 Feed roller 109 Feed roller 110 Feed roller 111 Feed roller 112 Registration roller 113 Registration roller 114 Transfer pressure roller 115 Paper discharge roller 116 Paper discharge roller 117 Paper discharge tray 118 Intermediate transfer medium container 119 Application amount control blade 120 Application auxiliary roller 121 Application roller 122 Cleaning roller 123 Cleaning blade

Claims (3)

A recording method in which a liquid is applied to an intermediate transfer member in accordance with an image signal, an image is formed on the intermediate transfer member, and then the image is transferred to a recording medium, and the intermediate transfer member is previously provided with the above-described intermediate transfer member. Forming a layer of a material that exhibits water absorption and thickening with respect to the liquid and can be peeled off from the intermediate transfer member, and then applying the liquid onto the material to form an image on the intermediate transfer member; In a recording method for transferring the image formed on the intermediate transfer member to a recording medium,
The material exhibiting water absorption and viscosity increase with respect to the liquid is a material containing a monomer containing acetamide and a carboxyl group,
The material containing a monomer containing acetamide and a carboxyl group is a copolymer of a polymer containing acetamide and at least one monomer containing a carboxyl group, or a polymer containing acetamide and a carboxyl group and at least one kind containing a carboxyl group. A recording method comprising a mixture with a polymer. 2. The recording method according to claim 1, wherein the polymer comprising at least one monomer containing a carboxyl group is a polymer or a crosslinked product, and one part of the polymer or crosslinked product is a lipophilic aliphatic amine or aromatic amine. And recording a salt. A recording apparatus that applies liquid onto an intermediate transfer body in accordance with an image signal, forms an image on the intermediate transfer body, and then transfers the image to a recording medium. Material forming means for forming a layer of a material that exhibits water absorption and viscosity increase with respect to the liquid and that can be peeled off from the intermediate transfer body, and forms an image on the intermediate transfer body by applying the liquid on the material A recording apparatus comprising: an image forming unit configured to transfer the image formed on the intermediate transfer member to a recording medium;
The layer of material formed by the material forming means has a material containing acetamide and a monomer containing a carboxyl group,
The material containing the monomer containing acetamide and a carboxyl group is a copolymer of a polymer containing acetamide and at least one monomer containing a carboxyl group, or a polymer containing acetamide and at least one kind containing a carboxyl group. A recording apparatus characterized by being a mixture with a polymer.

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