JP4653864B2 - Recording method and recording apparatus - Google Patents

Description

表１は、上記の記録結果を纏めたもので、カラーインクについては、普通紙に対しては１乃至５回、コート紙については１〜４回の重記録を行い、また、黒色インクについては、各１回の記録を行った場合の８５度各測定の光沢度を測定した結果を示したものである。
【００３５】
この様な記録サンプルを目視評価した結果、光沢度が５以下では光沢性を認識できず、６以上から光沢性を認識することができたが、６程度の場合、光沢にムラがありギラツキ感があった。
一方、光沢度が１０以上では光沢が均一となり明らかな画質向上が認識できた。
また、黒の場合には、光沢が見られず、文字を記録した場合の目視性に優れていた。
【００３６】
これらの結果から、
▲１▼記録面に記録する樹脂量が多いほど光沢性が増加すること、
▲２▼表面層にインクが残りやすいこと、
▲３▼表面が平滑なコート紙ほど光沢が大きくなること、及び、
▲４▼色による光沢の差はあまりないこと、
が分かる。
【００３７】
また、インク中の樹脂量が多いほど光沢は大きくなるが、その値はインクの浸透性によっても変わるので、画質の良否を決定するためには、樹脂量を規定するよりも、光沢性を規定することが有効であり、鮮やかで良好な画質を得るためには、上述のように、カラー記録部の光沢度としては６以上が必要であり、また、１０以上あれば十分である。
【００３８】
次に、第２の実施の形態を説明するが、この場合のインクジェット記録装置の基本的構成も、図６及び図７に示したものと同様であるが、２ドット×２ドットのマトリクスを１画素とし、この１画素に記録するドットの数（最大４ドット）と濃淡のインクの種類で階調を表現するタイプのものである。
この第２の実施の形態においては、階調性を直線的にして最大数の階調レベルを実現するために、濃色インクの濃度を淡色インクの濃度の約２倍とし、さらに、ほぼ等量の水溶性樹脂を添加することによって、ほぼ同じ物性の濃淡インクを製造する。
【００３９】
この濃淡インクを等量吐出してほぼ同じ大きさのドットを記録した結果、
階調レベル＝淡色ドットの個数＋濃色ドットの個数×２
の関係で表すことができ、下記の表２に示すようなドットの組合せで、０〜８の９レベルの直線的な階調性を表現することができる。
【００４０】
【表２】

この場合、各インクに含まれる樹脂量は同じであるため、画素の光沢度は記録したドット数、したがって、インク量に比例することになり、表２に示したドットの組合せの場合には、階調レベルの増加に対して光沢度が減少することがなく、滑らかな階調表現が可能になる。
【００４１】
【表３】

表３は、ドットの組合せを表２のドットの組合せと若干変えて０〜８の９の直線的な階調性を表現した場合であり、この場合、階調レベルの増加に対して中間調領域で光沢度が減少し、階調が歪んで画質が低下する。
したがって、上記の第２の実施の形態のように、階調レベルの増加に対して光沢度が減少しないようにドットの組合せを選択することが重要になる。
【００４２】
次に、図２を参照して、本発明の第３の実施の形態を説明する。
まず、上記の第２の実施の形態と同様に水溶性樹脂を添加しないＹ，Ｍ，Ｃの３色の濃色インクを製造し、この濃色インクを用いて階調レベル８、即ち、４ドットによるべた記録を行い、各色の彩度をＬ^* ，ａ^* ，ｂ^* 表色空間のａ^* ，ｂ^* 座標軸の距離により測定し、その結果を下記の表４に示した。
【表４】

【００４３】
表４から明らかなように、イエローはその色相から他のマゼンタやシアンの色より彩度が高くなるが、一般に、彩度が大きいほど表現できる色が多くなり、高画質の記録が実現できるが、この様に、イエローと、マゼンタ及びシアンとの間に彩度の差があると、色再現範囲のバランスが低下することになる。
【００４４】
そこで、マゼンタについて、上記の第２の実施の形態において水溶性樹脂の添加量を０から最大約２倍の範囲で調整し、このマゼンタインクを用いてベタ記録を行って光沢度と彩度の関係を測定した。
なお、各マゼンタインクの粘度が同等になるようにグリコール類の量で調整する。
【００４５】
図２参照
図２は、光沢度と彩度の相関図であり、光沢度の増加に伴って彩度を高くすることができることが確認された。
したがって、上記の第２の実施の形態において、マゼンタ及びシアンに添加する水溶性樹脂量をイエローに添加する水溶性樹脂量の約１．５倍とすることによって、彩度を１０％程度増加させることができ、色再現範囲のバランスを望ましいものとすることが可能になる。
【００４６】
但し、光沢度が１６程度以上になると彩度が飽和する傾向が見られるように、光沢度が増加しても色材の特性により彩度は飽和し、また、樹脂量の増加により光沢度増加させる場合、インクの粘度の増加を伴うため、粘度の増加に伴ってインク吐出特性への影響が大きくなる点に留意を要する。
なお、ヒートロール等を用いた加熱定着法等により光沢度を増加する場合には、粘度増加等は伴わないことになる。
【００４７】
次に、本発明の第４の実施の形態を説明するが、この場合のインクジェット記録装置の基本的構成も、図６及び図７に示したものと同様であるが、吐出手段に印加する電気信号のエネルギーを変えることによって１０ｐｌ単位で１０ｐｌ〜４０ｐｌの量のインクを吐出し、１ドットで１画素を形成する。
この第４の実施の形態において使用するインクは、顔料で着色したワックス微粒子を界面活性剤からなる分散剤によって水性分散媒に分散してインクを製造するものであり、濃色インクに含まれるワックス微粒子の量を淡色インクに含まれるワックス微粒子の量の２倍とする。
この場合、固形分の増加により、濃色インクの粘度が淡色インクの粘度よりもやや高くなるので、水性溶媒のうち高粘度の湿潤剤の量を調整してほぼ同じ粘度とした。
【００４８】
【表５】

表５は、記録結果を纏めたものであり、０〜８までの階調レベルを、階調性が低濃度域で緩やかに、高濃度域で急峻になる７つのレベルで表現することができる。
また、光沢レベルはほぼワックス量に比例し、また、ワックス量と顔料量の比率が一定であることから、光沢レベルは階調レベルに対応した値をとることになる。
【００４９】
また、中間調域の階調レベル２と４は、濃色ドットを夫々１０ｐｌ，２０ｐｌ吐出することによっても表現することができ、この時の光沢レベルは２と４で、淡色ドットで表現した場合と同じにすることができる。したがって、淡色ドットと濃色ドットが同じ階調レベルの中間調で混在しても光沢性がほぼ同じであるため、滑らかで自然な記録が可能になる。
【００５０】
次に、図３乃至図５を参照して本発明の第５の実施の形態を説明するが、この場合のインクジェット記録装置の基本的構成も、図６及び図７に示したものと同様であるが、吐出手段に印加する電気信号のエネルギーを変えることによって１０ｐｌまたは２０ｐｌの量のインクを吐出できるようにし、２ドット×２ドット（最大４ドット）で１画素を形成する。
【００５１】
この第５の実施の形態において使用するインクは、染料で着色したイオン性基を含有する樹脂微粒子を水性分散媒に分散してインクを製造するものであり、樹脂を着色する染料は濃淡インクで同じものを使用し、濃色インクの染色濃度を淡色インクの３倍とした以外は、濃淡インクの組成をほぼ同じにした。
【００５２】
【表６】

表６は、上述の淡色１０ｐｌドット、即ち、淡色小径、淡色２０ｐｌドット、即ち、淡色大径、濃色１０ｐｌドット、即ち、濃色小径、及び、濃色２０ｐｌ、即ち、濃色大径の４つのドットの階調レベルと光沢レベルを示すものである。
表６から明らかなように、淡色小径の階調レベル及び光沢レベルを１とすると、淡色大径、濃色小径、濃色大径の階調レベルは、夫々約２，３，６となり、Ａで示す光沢レベルは夫々約２，１，２となる。
【００５３】
図３乃至図５参照
図３乃至図５は、ドットの組合せによる階調レベル及び光沢レベルの変化を示す図であり、第５の実施の形態については光沢レベルＡとして示している。
図に示すように、階調レベルは０〜２４までの２３レベルの表現が可能であるが、上記の第２の実施の形態の様に、滑らかな階調性を表現するためには、より高い階調レベルの画素の光沢レベルが、それより低い階調レベルの画素の光沢レベル相当以上とする必要があり、その様な組合せを選択すると図に示すように、１６レベルの階調表現が可能になる。
なお、不適当なドットの組合せについては、図において斜線で表示している。
【００５４】
次に、同じく図３乃至図５を参照して本発明の第６の実施の形態を説明するが、この場合のインクジェット記録装置の基本的構成及びインクの吐出制御法は上記の第５の実施の形態と同様である。
この第６の実施の形態において使用するインクは、染料で着色したイオン性基を含有する樹脂微粒子を水性分散媒に分散してインクを製造するものであり、樹脂を所定量の染料で着色し、濃色インクの着色樹脂量を淡色インクの３倍とし、淡色インク中の高粘度成分である湿潤剤の量を増加して、濃色インクと淡色インクの粘度をほぼ同じにした。
【００５５】
再び、表６参照
この場合には、淡色小径の階調レベル及び光沢レベルを１とすると、淡色大径、濃色小径、濃色大径の階調レベルは、夫々約２，３，６となり、表６においてＢで示す光沢レベルは夫々約２，３，６となり、階調レベルと光沢レベルとは同じになる。
【００５６】
再び、図３乃至図５参照
この第６の実施の形態については光沢レベルＢとして示しており、０〜２４までの２３レベルの全ての階調レベルにおいて、且つ、全てのドットの組合せにおいて、高い階調レベルほど高い光沢レベルを表現することができ、レベル数が多いので、上記の第５の実施の形態よりもより滑らかな表現が可能になる。
【００５７】
次に、同じく図３乃至図５を参照して本発明の第７の実施の形態を説明するが、この場合のインクジェット記録装置の基本的構成及びインクの吐出制御法は上記の第５の実施の形態と同様である。
この第７の実施の形態において使用するインクは、上記の第５の実施の形態と同様に、染料で着色したイオン性基を含有する樹脂微粒子を水性分散媒に分散してインクを製造するものであり、樹脂を着色する染料は濃淡インクで同じものを使用し、濃色インクの染色濃度を淡色インクの３倍とした。
【００５８】
但し、無着色のイオン性基を含有する樹脂微粒子を着色したイオン性基を含有する樹脂微粒子とほぼ等量、濃色インクに添加することによって光沢度の向上を図った。
また、淡色インク中の高粘度成分である湿潤剤の量を増加して、濃色インクと淡色インクの粘度をほぼ同じにした。
【００５９】
再び、表６参照
この場合には、淡色小径の階調レベル及び光沢レベルを１とすると、淡色大径、濃色小径、濃色大径の階調レベルは、夫々約２，３，６となり、表６においてＣで示す光沢レベルは夫々約２，２，４となり、階調レベルと光沢レベルとは同じ増加傾向になる。
【００６０】
再び、図３乃至図５参照
この第７の実施の形態については光沢レベルＣとして示しており、０〜２４までの２３レベルの全ての階調レベルにおいて、高い階調レベルほど高い光沢レベルを表現することができるドットの組合せは存在するが、図において斜線で示す不適当なドットの組合せも存在する。
【００６１】
また、この第７の実施の形態においては、階調レベルに応じた光沢レベルの変化は、上記の第６の実施の形態の０〜２４から０〜１０に低下するが、濃色インク中の樹脂量を上記の第６の実施の形態の濃色インクに比較して少なくすることができるため、インクの粘度上昇を少なくすることができる。
したがって、吐出エネルギーや温度による粘度変化を小さくすることができるメリットがあり、プリンタへの負荷を少なくすることができる。
【００６２】
以上、本発明の各実施の形態を説明してきたが、本発明は、実施の形態に記載された構成に限られるものではなく、各種の変更が可能である。
例えば、上記の各実施の形態の説明においては、シリアルタイプのドロップオンデマンド型インクジェットプリンタ及び水性インクを使用した場合について説明しているが、水性インク以外に油性インク或いは溶剤系のインクを用いても良いものである。
【００６３】
また、プリンタとしても、シリアルタイプのドロップオンデマンド型に限られるものではなく、ラインタイプやコンティニアスタイプのインクジェットプリンタは勿論のこと、液状の記録液を使用する記録装置、例えば、液体現像タイプのレーザプリンタにも適用されるものである。
【００６４】
また、階調表現方法も、上記の各実施の形態に示した方法に限られるものではなく、各実施の形態に記載した方法を組み合わせても良いし、或いは、より大きなマトリクスの画素を用いても良いものであり、さらには、ドットを重ねる方法を用いても良いものである。
【００６５】
また、上記の各実施の形態の説明においては、光沢度は記録媒体表面に存在する樹脂またはワックスの量に比例するため、濃淡インクの物性を同じにして記録媒体への浸透性を同程度にしたが、本発明の効果をさらに高めるために、界面活性剤或いは水分で制御することによって濃色インクの浸透性を淡色インクの浸透性よりも低くすることも有効である。
【００６６】
また、本発明は、使用する記録媒体は特に限定されるものではないが、コピー用紙やコート紙等の記録面に光沢がないもの、或いは、光沢が低いものを使用した場合により大きな効果が実現することができる。
【００６７】
また、上記の各実施の形態の説明においては、インク吐出手段として、圧電素子を用いているが、圧電素子の代わりに、ヒータ、圧力ポンプ、静電吸引、磁気吸引等の他の公知の手段を用いても良いものである。
【００６８】
また、上記の各実施の形態の説明においては、カラーインクとして、イエロー（Ｙ）、マゼンタ（Ｍ）、及び、シアン（Ｃ）の３色のインクを用いているが、厳密にイエロー（Ｙ）、マゼンタ（Ｍ）、及び、シアン（Ｃ）の３色のインクである必要はなく、フルカラーを表現できるのであれば他の色相の異なる３色のインクでも良く、将来、このような他の色相の異なる３色のインクが開発された場合にも本発明の権利は及ぶものである。
【００６９】
【発明の効果】
本発明によれば、記録面における光沢度を具体的に規定することによって、黒文字等の視認性を低下させることなく、カラー記録面に光沢を付与して画質を向上することができ、また、階調変化に対応した光沢性を実現することによって、より滑らかな階調表現が可能になるので、色が鮮やかで、カラーバランスの良い高画質の階調カラー画像を実現することができる。
【図面の簡単な説明】
【図１】本発明の原理的構成の説明図である。
【図２】本発明の第３の実施の形態における光沢度の彩度との相関図である。
【図３】本発明の第５乃至第７の実施の形態における階調レベルと光沢度の説明図（１）である。
【図４】本発明の第５乃至第７の実施の形態における階調レベルと光沢度の説明図（２）である。
【図５】本発明の第５乃至第７の実施の形態における階調レベルと光沢度の説明図（３）である。
【図６】インクジェット記録装置の概略的要部透視斜視図である。
【図７】インクジェットヘッド部の説明図である。
【符号の説明】
１ 記録媒体
２ 記録面
３ 光源
４ 入射光
５ 反射光
６ 受光器
１０ インクジェット記録装置
１１ インクジェット部
１２ キャリア
１３ フレーム
１４ ステージシャフト
１５ 記録用紙
１６ 紙送りローラ
１７ バックアップユニット
１８ イエローインクカートリッジ
１９ マゼンタインクカートリッジ
２０ シアンインクカートリッジ
２１ 黒インクカートリッジ[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a recording method and a recording apparatus, and in particular, a recording method and a method characterized by improving vividness by enhancing glossiness of a color recording portion using ink containing at least one of resin or wax. The present invention relates to a recording apparatus.
[0002]
[Prior art]
Conventionally, as a printer device as an information equipment terminal such as a personal computer, a non-contact non-impact type ink jet printer that does not generate noise and has a simple structure, that is, an ink jet recording apparatus is used in an office. It is attracting attention as suitable.
[0003]
In such a conventional ink jet recording system, ink is ejected from a minute nozzle by using discharge means such as deformation force of a piezo element as an ink pressurizing means or pressure fluctuation due to bubble generation force by a heater as an ink heating means. This is a system in which dots are formed by ejecting ink onto a recording medium and ejected, and various images are recorded by a dot pattern.
[0004]
When performing color recording by this ink jet recording method, it is necessary to eject at least three inks of different colors such as yellow, magenta, and cyan, and black ink is used to record black. By doing so, real black is recorded, and color recording with higher image quality is realized.
[0005]
Here, with reference to FIGS. 6 and 7, an example of a serial type gradation color ink jet recording apparatus equipped with a recording head will be described.
See FIG.
FIG. 6 is a schematic perspective view of an essential part of the ink jet recording apparatus. In the ink jet recording apparatus 10, ink cartridges corresponding to each ink, that is, a yellow ink cartridge, a magenta ink cartridge, a cyan ink cartridge, and a black ink cartridge are shown. An ink jet head unit 11 to which an ink cartridge is attached is mounted on a carrier 12, and the carrier 12 is movable along the stage shaft 14 fixed to the frame 13 in the main scanning direction, that is, the X direction indicated by an arrow in the figure. It is attached.
[0006]
Further, the recording paper 15 as a recording medium is conveyed in the sub-scanning direction by the paper feed roller 16 and ejects ink based on the image data at a position facing the lowermost ink ejection section of the inkjet head section 11. By repeating the basic operation, a gradation color image composed of dots of different colors is recorded.
The backup unit 17 is a recovery mechanism that performs cleaning and the like.
[0007]
See Fig. 7 (a)
FIG. 7A is a schematic perspective view of the inkjet head unit 11, and a yellow ink cartridge 18, a magenta ink cartridge 19, a cyan ink cartridge 20, and a black ink cartridge 21 can be attached to and detached from the inkjet head unit 11. Is attached.
[0008]
In this case, if necessary, for the magenta ink cartridge 19 and the cyan ink cartridge 20, two types of dark and light inks may be prepared. In that case, the number of cartridges is six.
For yellow, since there is almost no merit even if the distinction between light and shade is given, a single cartridge is used.
[0009]
Refer to FIG.
FIG. 7B is a perspective view of the ink cartridge. In the figure, the yellow ink cartridge 18 is shown as a representative, but an ink supply unit to the inkjet head is provided below the yellow ink cartridge 18 in the figure. Is provided.
[0010]
When a color image is recorded using such an ink jet recording apparatus, vividness can be increased and higher quality recording can be realized by imparting gloss to the recording surface of the paper. As described above, as a method for imparting gloss to the recording surface, a method for improving the smoothness of the recording surface by adding a solid content such as a resin or wax to the recording liquid, or a method for heat-solidifying the solid content such as a resin or wax. A method of forming a film using a film, a method of laminating the entire recording surface with a film after recording, or a method of using a special recording medium called a glossy film or glossy paper in which the surface of the recording medium itself is glossed are known. Yes.
[0011]
In addition, the area gradation method and the density gradation method are known as methods for expressing gradation, and among these, the area gradation method includes a matrix that is used as a pixel, and is included in one pixel. There are a method for expressing gradation by controlling the number of dots to be recorded, a method for expressing gradation by controlling the size of one dot, and the like.
[0012]
On the other hand, the density gradation method includes a method of expressing gradation by a plurality of dots having different recording densities. By using a combination of these area gradation method and density gradation method, smoother Gradation can be expressed and high-quality recording can be realized.
[0013]
[Problems to be solved by the invention]
However, in each of the above-mentioned methods for imparting glossiness, in the case of a method of containing a solid component, there is a problem that a specific numerical relationship between the solid component and the glossiness is not set, and a method of forming a film In this case, it is necessary to equip the recording apparatus with a heat roll, and in the case of the laminating method, a separate processing step is required, and there is a problem that the texture of the recording medium is expensive and changes. Furthermore, the method using glossy paper has a problem that the recording medium is limited and expensive.
[0014]
Conventionally, when gradation is expressed using dark and light ink, recording is mainly performed with dark ink in a high density region, and recording is mainly performed with light color ink in a low density region. When the area is more vivid, higher glossiness is required when higher density, saturation, and gloss are imparted.
[0015]
However, in the conventional recording method, the size of the gloss is not specifically defined, and the gloss in the low density range is higher than the gloss in the high density range due to the amount of ink attached or the like. There is a problem that the vividness of the density range is reduced and the image quality is deteriorated, or the glossiness in the intermediate density range is increased or decreased, and the gradation change is distorted and the image quality is deteriorated. .
[0016]
Accordingly, an object of the present invention is to provide means for obtaining a high-quality vivid color image with good reproducibility.
[0017]
[Means for Solving the Problems]
Here, with reference to FIG. 1, means for solving the problems in the present invention will be described. FIG. 1 (a) is an explanatory view of a method of measuring glossiness, and FIG. It is a figure which shows the determination criteria of the quality of the image quality by glossiness.
See FIGS. 1 (a) and (b)
(1) The present invention relates to a recording method in which recording is performed using a color recording liquid of at least one color composed of at least a color material, at least one of a resin or a wax, and a liquid medium in which these are dissolved or dispersed. The glossiness of the solid recording portion of the recording surface 2 is 85 or more, and the glossiness is 6 or more.
[0018]
As described above, the glossiness that has not been particularly specified in the past is specified so that the glossiness measured by the 85 degree angle measurement at the solid recording portion of the recording surface 2 of the recording medium 1 is 6 or more, thereby achieving a bright high level. High quality images can be recorded with good reproducibility.
As shown in FIG. 1 (a), the glossiness measured by the 85 degree angle is obtained by changing the incident light 4 from the light source 3 made of, for example, a tungsten filament lamp so that the incident angle is 85 degrees. And the reflected light 5 from the recording surface 2 is detected by a light receiver 6 made of, for example, a Si photodiode to determine the glossiness, and is normally black with a refractive index of 1.567. The glossiness is defined as 100 based on a glass standard plate.
[0019]
(2) Further, the present invention performs recording using a black recording liquid, at least a color material, at least one of a resin or wax, and a color recording liquid of one or more colors composed of a liquid medium in which these are dissolved or dispersed. In the recording method to be performed, the glossiness by the 85 degree angle measurement in the solid recording portion of the color recording liquid on the recording surface 2 of the recording medium 1 is 6 or more and the 85 degree angle measurement in the solid recording portion of the black recording liquid. The glossiness is 5 or less.
[0020]
Thus, when color recording is performed using the black recording liquid color in combination, the glossiness of the color and the blackness of the black recording liquid are regulated by defining the glossiness of the solid recording portion of the black recording liquid as 5 or less. Is particularly suitable when there is a black recording portion such as a character.
[0021]
(3) Further, the present invention relates to a recording method for performing gradation recording using at least one color material, at least one of resin or wax, and a color recording liquid of one or more colors composed of a liquid medium in which these are dissolved or dispersed. In the same color recording section, the higher the recording density, the higher the glossiness.
[0022]
In this way, when performing color gradation recording, high-quality gradation color recording with vivid and smooth gradation is achieved by increasing the glossiness as the recording density increases in the recording section of the same color. Is possible.
[0023]
(4) Further, in the above (3), the present invention uses a recording liquid of at least three colors of yellow, magenta, and cyan as a color recording liquid, and is recorded with a recording liquid with low saturation. It is characterized by high glossiness.
[0024]
In this way, when performing color gradation recording using at least three colors Y, M, and C, the color reproduction range can be increased by increasing the glossiness of the recording portion recorded with a recording liquid with low saturation. Balance can be improved.
Incidentally, for M and C, which have lower saturation than Y, the saturation can be increased by about 10% by increasing the amount of resin or wax to 1.5 times that of Y. Can improve the balance.
[0025]
(5) Further, the present invention uses at least one color material, at least one of resin or wax, and one or more color recording liquids composed of a liquid medium in which these are dissolved or dispersed. In a recording method that uses the above dark and light recording liquids and performs gradation expression by forming pixels by a set of dots formed by adhering these recording liquids to the recording medium 1, the glossiness of high density pixels is low. A dark and light recording liquid is selected so as to be equal to or higher than the glossiness of the density pixel.
[0026]
In this way, two or more types of dark and light recording liquids are used as recording liquids of the same color, and gradation expression is performed by forming pixels by a set of dots formed by attaching these recording liquids to the recording medium 1. In this case, by selecting the dark and light recording liquid so that the glossiness of the high density pixel is equal to or higher than the glossiness of the low density pixel, the gradation in the halftone region can be smoothed.
[0027]
(6) Further, in the above (5), the present invention is characterized in that the amount of at least one of the resin or the wax in the recording liquid is adjusted by adding an uncolored resin or wax to each recording liquid. And
[0028]
In this way, by adding an uncolored resin or wax to each recording liquid consisting of a colored resin or colored wax and adjusting the amount of at least one of the resin or wax in each recording liquid, the recording density is affected. It is possible to adjust the glossiness without doing so.
[0029]
(7) Further, the present invention is characterized in that the recording apparatus is provided with a control means for performing recording by the recording method according to any one of (1) to (6).
[0030]
Thus, by providing a control means for performing recording by the recording method according to any one of (1) to (6) above, without providing a heating / pressurizing means such as a heat roll in the recording apparatus, Alternatively, a recording apparatus capable of vivid high-quality color recording with excellent gloss can be configured without using a special recording medium 1 such as glossy paper.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Here, first to seventh embodiments of the present invention will be described. First, the first embodiment will be described.
The basic configuration of the ink jet recording apparatus used in the first embodiment is the same as that shown in FIGS. 6 and 7. Here, one ink cartridge is provided for each of Y, M, C, and K. A mounted inkjet head is used.
[0032]
First, an aqueous solution containing glycols having a wetting effect by using a polymer dispersant, resin fine particles colored with dyes of yellow (Y), magenta (M), and cyan (C) using an ordinary method. Are dispersed in an aqueous dispersion medium, and inks of three colors Y, M, and C are produced.
As the dye for coloring the resin, an oil-soluble dye is used, the dye concentration in the resin is 10% by weight, the color resin concentration in the ink is 15% by weight, and color mixing at the color boundary is suppressed. Therefore, a surfactant was added to increase the permeability of the ink into the recording medium.
As for the black ink, a black water-soluble dye was dissolved in an aqueous glycol solution to produce a black ink that was less permeable than the color ink.
[0033]
Next, recording is performed on recording paper using these inks. In the case of color ink, about 50 pl (picoliter) / dot, and in the case of black ink, the rate is about 100 pl / dot. Ink was discharged and solid recording with a resolution of 360 dpi was performed on plain paper and coated paper.
[0034]
[Table 1]

Table 1 summarizes the above recording results. For color ink, 1 to 5 times for plain paper, 1 to 4 times for coated paper, and 1 to 4 times for black paper, and for black ink, The results of measuring the glossiness of each measurement at 85 degrees when each recording is performed are shown.
[0035]
As a result of visual evaluation of such a recording sample, the glossiness could not be recognized when the glossiness was 5 or less, and the glossiness could be recognized from 6 or more. was there.
On the other hand, when the glossiness was 10 or more, the gloss was uniform and a clear improvement in image quality was recognized.
In the case of black, no gloss was seen, and the visibility when characters were recorded was excellent.
[0036]
From these results,
(1) Glossiness increases as the amount of resin recorded on the recording surface increases.
(2) Ink tends to remain on the surface layer.
(3) The gloss of coated paper with a smooth surface increases, and
(4) There is not much difference in gloss due to color.
I understand.
[0037]
In addition, the gloss increases as the amount of resin in the ink increases, but the value varies depending on the permeability of the ink. Therefore, to determine the quality of the image, specify the gloss rather than the amount of resin. In order to obtain vivid and good image quality, it is necessary that the glossiness of the color recording portion is 6 or more, and 10 or more is sufficient as described above.
[0038]
Next, a second embodiment will be described. The basic configuration of the ink jet recording apparatus in this case is the same as that shown in FIGS. 6 and 7, but a matrix of 2 dots × 2 dots is 1 This is a pixel type in which gradation is expressed by the number of dots to be recorded in one pixel (maximum 4 dots) and the type of dark and light ink.
In the second embodiment, in order to achieve the maximum number of gradation levels by making the gradation characteristic linear, the density of the dark color ink is set to about twice the density of the light color ink, and further, substantially the same. By adding an amount of water-soluble resin, a dark and light ink having substantially the same physical properties is produced.
[0039]
As a result of ejecting equal amounts of this dark and light ink and recording dots of approximately the same size,
Gradation level = number of light dots + number of dark dots x 2
The 9-level linear gradation of 0 to 8 can be expressed by a combination of dots as shown in Table 2 below.
[0040]
[Table 2]

In this case, since the amount of resin contained in each ink is the same, the glossiness of the pixel is proportional to the number of recorded dots, and thus the ink amount. In the case of the dot combinations shown in Table 2, Glossiness does not decrease with increasing gradation level, and smooth gradation expression is possible.
[0041]
[Table 3]

Table 3 shows a case where the combination of dots is slightly changed from the combination of dots in Table 2 to express a linear gradation property of 9 from 0 to 8, and in this case, the halftone is increased with respect to an increase in gradation level. The glossiness decreases in the area, the gradation is distorted, and the image quality is degraded.
Therefore, as in the second embodiment, it is important to select a combination of dots so that the glossiness does not decrease with an increase in gradation level.
[0042]
Next, a third embodiment of the present invention will be described with reference to FIG.
First, as in the second embodiment, a dark ink of three colors Y, M, and C, to which no water-soluble resin is added, is manufactured, and a gradation level of 8, that is, 4 is produced using this dark ink. Perform solid recording with dots and set the saturation of each color to L ^* , A ^* , B ^* A in the color space ^* , B ^* The measurement was performed based on the distance of the coordinate axes, and the results are shown in Table 4 below.
[Table 4]

[0043]
As is apparent from Table 4, yellow has a higher saturation than other magenta and cyan colors due to its hue, but generally, the higher the saturation, the more colors that can be expressed, and high-quality recording can be realized. Thus, if there is a difference in saturation between yellow and magenta and cyan, the balance of the color reproduction range is lowered.
[0044]
Therefore, for magenta, the amount of water-soluble resin added in the second embodiment is adjusted in the range from 0 to a maximum of about twice, and solid recording is performed using this magenta ink to obtain the glossiness and saturation. The relationship was measured.
In addition, it adjusts with the quantity of glycols so that the viscosity of each magenta ink may become equivalent.
[0045]
See Figure 2
FIG. 2 is a correlation diagram between glossiness and saturation, and it was confirmed that the saturation can be increased as the glossiness increases.
Therefore, in the second embodiment, the saturation is increased by about 10% by setting the amount of the water-soluble resin added to magenta and cyan to about 1.5 times the amount of the water-soluble resin added to yellow. Therefore, it is possible to make the balance of the color reproduction range desirable.
[0046]
However, as the glossiness tends to saturate when the glossiness exceeds about 16, even if the glossiness increases, the saturation saturates due to the characteristics of the color material, and the glossiness increases as the amount of resin increases. In this case, it should be noted that since the viscosity of the ink increases, the influence on the ink ejection characteristics increases as the viscosity increases.
When the glossiness is increased by a heat fixing method using a heat roll or the like, there is no increase in viscosity.
[0047]
Next, a fourth embodiment of the present invention will be described. The basic configuration of the ink jet recording apparatus in this case is the same as that shown in FIGS. By changing the energy of the signal, 10 pl to 40 pl of ink is ejected in units of 10 pl, and one pixel is formed with one dot.
The ink used in the fourth embodiment is an ink produced by dispersing wax fine particles colored with a pigment in an aqueous dispersion medium with a dispersant made of a surfactant. The wax contained in the dark ink The amount of fine particles is set to be twice the amount of wax fine particles contained in the light color ink.
In this case, since the viscosity of the dark ink becomes slightly higher than that of the light ink due to the increase in the solid content, the amount of the high-viscosity wetting agent in the aqueous solvent is adjusted to be approximately the same.
[0048]
[Table 5]

Table 5 summarizes the recording results, and the gradation levels from 0 to 8 can be expressed by seven levels where gradation is moderate in the low density region and steep in the high density region. .
Further, the gloss level is substantially proportional to the amount of wax, and since the ratio between the amount of wax and the amount of pigment is constant, the gloss level takes a value corresponding to the gradation level.
[0049]
The gradation levels 2 and 4 of the halftone area can also be expressed by discharging dark dots of 10 pl and 20 pl, respectively, and the gloss levels at this time are 2 and 4 when expressed by light color dots. Can be the same. Therefore, even if the light color dots and the dark color dots are mixed in halftones having the same gradation level, the glossiness is almost the same, so that smooth and natural recording is possible.
[0050]
Next, a fifth embodiment of the present invention will be described with reference to FIGS. 3 to 5. The basic configuration of the ink jet recording apparatus in this case is the same as that shown in FIGS. However, by changing the energy of the electric signal applied to the ejection means, it is possible to eject 10 pl or 20 pl of ink, and one pixel is formed by 2 dots × 2 dots (maximum 4 dots).
[0051]
The ink used in the fifth embodiment is an ink produced by dispersing resin fine particles containing an ionic group colored with a dye in an aqueous dispersion medium. The dye coloring the resin is a dark and light ink. The composition of the dark and light ink was almost the same except that the same color was used and the dyeing density of the dark color ink was three times that of the light color ink.
[0052]
[Table 6]

Table 6 shows the above-described light 10 pl dots, that is, light color small diameter, light 20 pl dots, that is, light color large diameter, dark color 10 pl dots, that is, dark color small diameter, and dark color 20 pl, that is, dark color large diameter 4 It shows the gradation level and gloss level of one dot.
As can be seen from Table 6, if the gradation level and gloss level of the light color small diameter are 1, the gradation levels of the light color large diameter, dark color small diameter, and dark color large diameter are about 2, 3, and 6, respectively. The gloss levels indicated by are about 2, 1 and 2, respectively.
[0053]
See FIG. 3 to FIG.
FIGS. 3 to 5 are diagrams showing changes in the gradation level and the gloss level depending on the combination of dots, and the fifth embodiment is shown as the gloss level A. FIG.
As shown in the figure, although the gradation level can be expressed in 23 levels from 0 to 24, in order to express smooth gradation as in the second embodiment, The gloss level of a pixel with a high gradation level needs to be equal to or higher than the gloss level of a pixel with a lower gradation level. When such a combination is selected, a 16-level gradation expression is obtained as shown in the figure. It becomes possible.
Inappropriate dot combinations are indicated by hatching in the figure.
[0054]
Next, a sixth embodiment of the present invention will be described with reference to FIGS. 3 to 5 as well. The basic configuration of the ink jet recording apparatus and the ink ejection control method in this case are the same as those described in the fifth embodiment. It is the same as the form.
The ink used in the sixth embodiment is an ink manufactured by dispersing resin fine particles containing an ionic group colored with a dye in an aqueous dispersion medium. The ink is colored with a predetermined amount of dye. The amount of the colored resin of the dark ink was increased to 3 times that of the light ink, and the amount of the wetting agent, which is a high viscosity component in the light ink, was increased to make the dark ink and the light ink have substantially the same viscosity.
[0055]
See Table 6 again
In this case, if the gradation level of the light color small diameter and the gloss level are 1, the gradation levels of the light color large diameter, the dark color small diameter, and the dark color large diameter are about 2, 3, and 6, respectively. The gloss levels indicated by are about 2, 3 and 6, respectively, and the gradation level and the gloss level are the same.
[0056]
Refer again to FIGS.
This sixth embodiment is shown as gloss level B, and in all 23 gradation levels from 0 to 24 and in all dot combinations, the higher the gradation level, the higher the gloss level. Since the number of levels can be expressed and the number of levels is large, a smoother expression can be achieved than in the fifth embodiment.
[0057]
Next, the seventh embodiment of the present invention will be described with reference to FIGS. 3 to 5 as well. The basic configuration of the ink jet recording apparatus and the ink ejection control method in this case are the same as those described in the fifth embodiment. It is the same as the form.
As in the fifth embodiment, the ink used in the seventh embodiment is an ink produced by dispersing resin fine particles containing an ionic group colored with a dye in an aqueous dispersion medium. The same dye is used as the dye for coloring the resin, and the dyeing density of the dark ink is set to three times that of the light ink.
[0058]
However, the glossiness was improved by adding almost equal amounts of resin fine particles containing uncolored ionic groups to resin fine particles containing colored ionic groups to dark ink.
Further, the amount of the wetting agent, which is a high viscosity component in the light ink, was increased so that the dark ink and the light ink had substantially the same viscosity.
[0059]
See Table 6 again
In this case, assuming that the gradation level of the light color small diameter and the gloss level are 1, the gradation levels of the light color large diameter, dark color small diameter, and dark color large diameter are about 2, 3, and 6, respectively. The gloss levels indicated by are about 2, 2, and 4, respectively, and the gradation level and gloss level tend to increase.
[0060]
Refer again to FIGS.
This seventh embodiment is shown as a gloss level C, and among all 23 gradation levels from 0 to 24, a combination of dots that can express a higher gloss level as the gradation level is higher. Although there exist, there are also improper dot combinations indicated by diagonal lines in the figure.
[0061]
In the seventh embodiment, the change in the gloss level according to the gradation level is reduced from 0 to 24 to 0 to 10 in the sixth embodiment, but in the dark ink. Since the amount of resin can be reduced as compared with the dark color ink of the sixth embodiment, an increase in the viscosity of the ink can be reduced.
Therefore, there is an advantage that the change in viscosity due to the discharge energy and temperature can be reduced, and the load on the printer can be reduced.
[0062]
Although the embodiments of the present invention have been described above, the present invention is not limited to the configurations described in the embodiments, and various modifications can be made.
For example, in the description of each of the above embodiments, the case of using a serial type drop-on-demand ink jet printer and water-based ink has been described. However, oil-based ink or solvent-based ink is used in addition to water-based ink. Is also good.
[0063]
Also, the printer is not limited to the serial type drop-on-demand type, and is of course not only a line type or continuous type ink jet printer, but also a recording apparatus using a liquid recording liquid, such as a liquid developing type. The present invention is also applied to a laser printer.
[0064]
Further, the gradation expression method is not limited to the method described in each of the above embodiments, and the methods described in each embodiment may be combined, or pixels of a larger matrix may be used. In addition, a method of overlapping dots may be used.
[0065]
In the description of each of the above embodiments, the gloss level is proportional to the amount of resin or wax present on the surface of the recording medium. Therefore, the properties of the dark and light inks are the same and the permeability to the recording medium is the same. However, in order to further enhance the effect of the present invention, it is effective to make the permeability of the dark color ink lower than that of the light color ink by controlling with a surfactant or moisture.
[0066]
In the present invention, the recording medium to be used is not particularly limited, but a greater effect is realized when the recording surface such as copy paper or coated paper has no gloss or low gloss. can do.
[0067]
In the description of each of the above embodiments, the piezoelectric element is used as the ink discharge means. However, other known means such as a heater, a pressure pump, electrostatic suction, and magnetic suction are used instead of the piezoelectric element. May be used.
[0068]
In the description of each of the above embodiments, three color inks of yellow (Y), magenta (M), and cyan (C) are used as the color ink. However, strictly yellow (Y). , Magenta (M), and cyan (C) inks are not necessary, and if full colors can be expressed, other three-color inks with different hues may be used. Even when three different color inks are developed, the right of the present invention extends.
[0069]
【The invention's effect】
According to the present invention, by specifically defining the gloss level on the recording surface, it is possible to improve the image quality by imparting gloss to the color recording surface without reducing the visibility of black characters and the like, By realizing the glossiness corresponding to the gradation change, a smoother gradation expression is possible, so that a high-quality gradation color image with vivid colors and good color balance can be realized.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a basic configuration of the present invention.
FIG. 2 is a correlation diagram between glossiness and saturation in a third embodiment of the present invention.
FIG. 3 is an explanatory diagram (1) of a gradation level and glossiness in the fifth to seventh embodiments of the present invention.
FIG. 4 is an explanatory diagram (2) of gradation levels and glossiness in the fifth to seventh embodiments of the present invention.
FIG. 5 is an explanatory diagram (3) of a gradation level and glossiness in the fifth to seventh embodiments of the present invention.
FIG. 6 is a schematic perspective view of a main part of the ink jet recording apparatus.
FIG. 7 is an explanatory diagram of an ink jet head unit.
[Explanation of symbols]
1 Recording medium
2 Recording surface
3 Light source
4 Incident light
5 Reflected light
6 Receiver
10 Inkjet recording device
11 Inkjet part
12 Career
13 frames
14 Stage shaft
15 Recording paper
16 Paper feed roller
17 Backup unit
18 Yellow ink cartridge
19 Magenta ink cartridge
20 Cyan ink cartridge
21 Black ink cartridge

Claims (14)

At least one color recording liquid consisting of at least a colorant and a liquid medium in which a water-soluble resin is dissolved or dispersed is used, and two types of dark and light recording liquids are used as the same color recording liquid, and the recording liquid is attached to the recording medium. In a recording method for performing gradation expression by forming a pixel by a set of dots formed by
Among the dark and light recording liquids, the recording liquid with a high concentration is twice the concentration of the recording liquid with a low concentration,
The water-soluble resin contained in each of the dark and light recording liquids is the same amount,
The recording method according to claim 1, wherein the glossiness of the pixel is proportional to the number of dots constituting the pixel without decreasing with respect to an increase in gradation level of the pixel. As the color recording liquid, three color recording liquids of yellow, magenta, and cyan are used,
The recording method according to claim 1, wherein among the three color recording liquids, the amount of the water-soluble resin contained in the magenta and the cyan is larger than the amount of the water-soluble resin contained in the yellow . Using an ink in which wax fine particles colored with a pigment are dispersed in an aqueous dispersion medium with a surfactant as a color recording liquid consisting of at least a colorant and a liquid medium in which wax is dissolved or dispersed, and having the same color In a recording method in which two types of dark and light recording liquids are used as a recording liquid, pixels are formed by dots formed by attaching the recording liquid to a recording medium, and gradation expression is performed by changing the size of the dots.
The ratio of the amount of wax and the amount of color material contained in each of the dark and light recording liquids is constant,
The pixel is formed by one dot selected from a plurality of types of dots having different densities and sizes,
A recording method, wherein a dot constituting the pixel is selected from the plurality of types of dots so that the glossiness of the pixel increases with an increase in gradation level of the pixel. A recording liquid of the same color using an ink in which resin fine particles containing an ionic group colored with a dye are dispersed in an aqueous dispersion medium as a color recording liquid of at least one color composed of at least a coloring material and a liquid medium in which the resin is dissolved or dispersed In a recording method in which two types of dark and light recording liquids are used, pixels are formed by dots formed by attaching the recording liquid to a recording medium, and gradation expression is performed by changing the size of the dots.
The ratio of the amount of resin and the amount of color material contained in each of the dark and light recording liquids is constant,
The pixel is formed by a combination of a plurality of types of dots having different densities and sizes,
Recording method characterized by as glossiness of the pixel increases, the combination of dots constituting the pixel from among the plurality of types of dots is determined for an increase in the gray level of the pixel. A recording liquid of the same color using an ink in which resin fine particles containing an ionic group colored with a dye are dispersed in an aqueous dispersion medium as a color recording liquid of at least one color composed of at least a coloring material and a liquid medium in which the resin is dissolved or dispersed In a recording method in which two types of dark and light recording liquids are used, pixels are formed by dots formed by attaching the recording liquid to a recording medium, and gradation expression is performed by changing the size of the dots.
The first resin contained in each of the dark and light recording liquids is the same amount,
Further, among the dark and light recording liquids, the high concentration recording liquid contains the same amount of the second resin as the first resin,
The pixel is formed by a combination of a plurality of types of dots having different densities and sizes,
Recording method characterized by as glossiness of the pixel increases, the combination of dots constituting the pixel from among the plurality of types of dots is determined for an increase in the gray level of the pixel. In the recording liquid of the shades, permeability to the recording medium of high density recording liquid, any one of claims 1 to 5, characterized in that less than permeability to the recording medium of the low density recording liquid 2. The recording method according to item 1. 7. The recording method according to claim 6 , wherein the penetrability of the high-density recording liquid into the recording medium is controlled by adjusting a surfactant or moisture added to the high-density recording liquid. At least one color recording liquid consisting of at least a colorant and a liquid medium in which a water-soluble resin is dissolved or dispersed is used, and two types of dark and light recording liquids are used as the same color recording liquid, and the recording liquid is attached to the recording medium. In a recording apparatus including a control unit that performs gradation expression by forming a pixel by a set of dots formed in a manner,
Among the dark and light recording liquids, the recording liquid with a high concentration is twice the concentration of the recording liquid with a low concentration,
The water-soluble resin contained in each of the dark and light recording liquids is the same amount,
The control means performs gradation expression so that the glossiness of the pixel is proportional to the number of dots constituting the pixel without decreasing with respect to an increase in the gradation level of the pixel. apparatus. The color recording liquid is a recording liquid of three colors of yellow, magenta, and cyan,
Wherein among the three colors recording liquid, the amount of water-soluble resins contained in the magenta and the cyan recording apparatus according to claim 8, wherein the greater than the amount of the water-soluble resin contained in the yellow. Using an ink in which wax fine particles colored with a pigment are dispersed in an aqueous dispersion medium with a surfactant as a color recording liquid consisting of at least a colorant and a liquid medium in which wax is dissolved or dispersed, and having the same color There are provided control means for using two types of dark and light recording liquids as the recording liquid, forming pixels by dots formed by attaching the recording liquid to a recording medium, and expressing gradation by changing the size of the dots. In the recording device
The ratio of the amount of wax and the amount of color material contained in each of the dark and light recording liquids is constant,
The pixel is formed by one dot selected from a plurality of types of dots having different densities and sizes,
The control means performs gradation expression by selecting dots constituting the pixel from the plurality of types of dots so that the glossiness of the pixel increases as the gradation level of the pixel increases. A recording apparatus. A recording liquid of the same color using an ink in which resin fine particles containing an ionic group colored with a dye are dispersed in an aqueous dispersion medium as a color recording liquid of at least one color composed of at least a coloring material and a liquid medium in which the resin is dissolved or dispersed As a recording medium, a recording device is provided with control means for using two types of dark and light recording liquids, forming pixels by dots formed by attaching the recording liquid to a recording medium, and changing the size of the dots. In the device
The ratio of the amount of resin and the amount of color material contained in each of the dark and light recording liquids is constant,
The pixel is formed by a combination of a plurality of types of dots having different densities and sizes,
Said control means, as the glossiness of the pixel is increased relative to the increase in gray level of the pixel, the gradation representation to determine a combination of dots constituting the pixel from among the plurality of types of dots A recording apparatus. A recording liquid of the same color using an ink in which resin fine particles containing an ionic group colored with a dye are dispersed in an aqueous dispersion medium as a color recording liquid of at least one color composed of at least a coloring material and a liquid medium in which the resin is dissolved or dispersed As a recording medium, a recording device is provided with control means for using two types of dark and light recording liquids, forming pixels by dots formed by attaching the recording liquid to a recording medium, and changing the size of the dots. In the device
The first resin contained in each of the dark and light recording liquids is the same amount,
Further, among the dark and light recording liquids, the high concentration recording liquid contains the same amount of the second resin as the first resin,
The pixel is formed by a combination of a plurality of types of dots having different densities and sizes,
Said control means, as the glossiness of the pixel is increased relative to the increase in gray level of the pixel, the gradation representation to determine a combination of dots constituting the pixel from among the plurality of types of dots A recording apparatus. In the recording liquid of the shades, permeability to the recording medium of high density recording liquid, any one of claims 8 to 12, characterized in that lower than permeability to the recording medium of the low density recording liquid The recording apparatus according to item 1. 14. The recording apparatus according to claim 13 , wherein the penetrability of the recording liquid with a high concentration into the recording medium is controlled by adjusting a surfactant or moisture added to the recording liquid with a high concentration.

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