JP2008107567A - Production process of stereocospic visual sensation effect printed matter and its composition - Google Patents
Production process of stereocospic visual sensation effect printed matter and its composition Download PDFInfo
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本発明は一種の立体視覚効果印刷物、特に一種の磁気粒子と磁気体の相互作用により、立体視覚効果を実現する立体視覚効果印刷物の生産工程とその組成物に関わるものである。 The present invention relates to a production process and a composition of a stereoscopic visual effect printed material, in particular, a stereoscopic visual effect printed material that realizes a stereoscopic visual effect by an interaction between a magnetic particle and a magnetic material.
従来の印刷技術は、シルクするリーン印刷、自動オフセット印刷、転写技術など、必要により、単色又は多色の上重ね印刷方法により、2次元の平面視覚効果であった。しかしながら、今日の新しい外観処理の需要に対して、従来の印刷技術は視覚印象の向上、又は立体視覚効果の表現が難しい。コンピュータの普及につれて、ほとんどの業者はコンピュータ分色を使用し、グレースケール方式の立体効果により、2次元の立体視覚効果を強化する。しかしながら、設備投資費用が膨大なため、応用するコストが大幅に増加する反面、模擬できる立体効果は非常に限られている。 The conventional printing technique has a two-dimensional planar visual effect by a monochromatic or multicolor overprinting method as necessary, such as silk-screening lean printing, automatic offset printing, and transfer technology. However, in response to today's demand for new appearance processing, it is difficult for the conventional printing technology to improve the visual impression or express the stereoscopic visual effect. As computers become more popular, most vendors use computer color separation to enhance the two-dimensional stereoscopic effect through a grayscale stereo effect. However, since the capital investment cost is enormous, the applied cost is greatly increased, but the three-dimensional effects that can be simulated are very limited.
磁気粒子と磁気体との相互作用により、立体視覚効果を図る印刷物の生産工程とその組成物を提供することを本発明の主な目的である。 It is a main object of the present invention to provide a printed matter production process and a composition for achieving a stereoscopic vision effect by the interaction between magnetic particles and a magnetic body.
前記の目的を達成するため、本発明の立体視覚効果印刷物の生産工程は、インクに磁気粒子を混合し、磁気体により磁気粒子を吸着集中させ、立体視覚効果の実現を図る。本発明の立体視覚効果印刷物は、主にインク65〜95%重量パーセント、磁気粒子5〜15%重量パーセントを混合し調製する。インクに染料を加えて、カラー調節しても良い。 In order to achieve the above object, in the production process of the stereoscopic visual effect printed matter of the present invention, magnetic particles are mixed with ink, and the magnetic particles are attracted and concentrated by a magnetic material to achieve a stereoscopic visual effect. The stereoscopic visual effect printed matter of the present invention is prepared by mixing mainly 65 to 95% by weight of ink and 5 to 15% by weight of magnetic particles. Color may be adjusted by adding a dye to the ink.
請求項1の発明は、一種の立体視覚効果を有する印刷物の生産工程において、主に磁気粒子を混合調製したインクをスクリーンに塗布し、磁気体を立体成型区域のインク区域に置くことにより、該磁気体は、乾燥前のインクに含まれる磁気粒子を磁気区域に吸着集中させ、該区域に凸/凹表面を作り上げて、立体効果を形成することを特徴とする立体視覚効果印刷物の生産工程としている。
請求項2の発明は、一種の立体視覚効果を有する印刷物の生産工程において、以下の手順を備え、
外観設計者により最終外観が決定された後、立体印刷の設計作業を着手し、
立体視覚効果の位置に従い、磁力発生ジグを取り付け、
磁気粒子を適量にインクに調合し、調合したインクをスクリーン又は鉄版に注いで、印刷設備により立体視覚効果の印刷を仕上げ、
磁気ジグを外して、ベーキング作業を経て乾燥させることを特徴とする立体視覚効果印刷物の生産工程としている。
請求項3の発明は、請求項2記載の立体視覚効果印刷物の生産工程において、最後にウレタンまたは紫外線硬化インクを塗布し、ベーキングして、乾燥工程を含まれることを特徴とする立体視覚効果印刷物の生産工程としている。
請求項4の発明は、一種の立体視覚効果印刷物の組成物において、主にインク65〜95%重量パーセント、磁気粒子5〜35%重量パーセントを混合し調製する一種の立体視覚効果印刷物の組成物、ことを特徴とする立体視覚効果印刷物の組成物としている。
請求項5の発明は、請求項4記載の立体視覚効果印刷物の組成物において、該磁気粒子は三酸化第二鉄であることを特徴とする立体視覚効果印刷物の組成物としている。
請求項6の発明は、請求項4記載の立体視覚効果印刷物の組成物において、該インクは、ポリビニル(ポリ塩化ビニル)/ポリウレタン樹脂、イソフォロン、シクロヘキサノン、フェニル基アルキル溶液、エチレングリコール溶液を含まれることを特徴とする立体視覚効果印刷物の組成物としている。
請求項7の発明は、一種の立体視覚効果印刷物の組成物において、主にインク65〜90%重量パーセント、磁気粒子5〜30%重量パーセント及び染料5〜30%重量パーセントを混合し調製する、ことを特徴とする立体視覚効果印刷物の組成物としている。
According to the first aspect of the present invention, in the production process of a printed matter having a kind of stereoscopic vision effect, the ink mainly mixed with magnetic particles is applied to the screen, and the magnetic body is placed in the ink area of the three-dimensionally molded area. As a production process of stereoscopic visual effect printed matter, the magnetic body is characterized by attracting and concentrating the magnetic particles contained in the ink before drying to the magnetic area, creating a convex / concave surface in the area, and forming a stereoscopic effect. Yes.
The invention of claim 2 comprises the following procedure in the production process of a printed matter having a kind of stereoscopic visual effect,
After the final appearance is decided by the appearance designer, the design work of 3D printing is started.
According to the position of the stereoscopic visual effect, attach the magnetic force generation jig,
Prepare the appropriate amount of magnetic particles into the ink, pour the prepared ink on the screen or iron plate, and finish the printing of the stereoscopic effect by the printing equipment,
The production process of the stereoscopic visual effect printed matter is characterized by removing the magnetic jig and drying it after baking.
According to a third aspect of the present invention, there is provided the stereoscopic visual effect printed matter according to the second aspect, wherein in the production process of the stereoscopic visual effect printed matter, urethane or ultraviolet curable ink is finally applied, baked and dried. The production process.
The invention of claim 4 is a kind of composition for a stereoscopic visual effect printed matter prepared by mixing 65 to 95% by weight of ink and 5 to 35% by weight of magnetic particles in a composition of a stereoscopic visual effect printed matter. The composition of the stereoscopic visual effect printed matter is characterized by that.
According to a fifth aspect of the present invention, there is provided the composition of the stereoscopic visual effect printed matter according to the fourth aspect, wherein the magnetic particles are ferric trioxide.
The invention of claim 6 is the composition of the stereoscopic visual effect printed matter according to claim 4, wherein the ink includes polyvinyl (polyvinyl chloride) / polyurethane resin, isophorone, cyclohexanone, phenyl group alkyl solution, and ethylene glycol solution. It is set as the composition of the stereo visual effect printed matter characterized by this.
The invention of claim 7 is prepared by mixing mainly 65 to 90% by weight of ink, 5 to 30% by weight of magnetic particles, and 5 to 30% by weight of dye in a composition of a stereoscopic visual effect print. It is set as the composition of the stereo visual effect printed matter characterized by this.
本発明は磁気粒子のインクと磁気体との相互作用により図画の立体視覚効果を実現する。 The present invention realizes a stereoscopic visual effect of a drawing by the interaction between the magnetic particle ink and the magnetic material.
図1は、本発明の磁気粒子と磁気体との作用関係の概略図である。磁気粒子10を混合したインク11を印刷版12に塗布した上、磁気体13を立体表現必要な区域のインク11に設けることにより、磁気体13は乾燥前のインク11に含まれる磁気粒子10を磁気区域に吸着収集させ、該区域に凸/凹表面を作り上げて、立体効果を形成する。本発明の立体視覚効果印刷技術と従来の印刷技術と異なるところは、新たに印刷設備15の新規設計必要がなく、既設の印刷設備15が対応できる。引き続き、本発明の印刷物と組成物と磁気ジグ16により、磁気粒子10を吸着収集させ、3次元の立体視覚を形成する。 FIG. 1 is a schematic diagram of the operational relationship between magnetic particles and a magnetic body of the present invention. The ink 11 mixed with the magnetic particles 10 is applied to the printing plate 12, and the magnetic body 13 is provided on the ink 11 in the area where the three-dimensional representation is necessary. A magnetic area is attracted and collected, creating a convex / concave surface in the area, creating a steric effect. The difference between the stereoscopic visual effect printing technique of the present invention and the conventional printing technique is that there is no need to newly design the printing equipment 15 and the existing printing equipment 15 can be used. Subsequently, the magnetic particles 10 are attracted and collected by the printed matter, the composition and the magnetic jig 16 of the present invention to form a three-dimensional stereoscopic vision.
本発明の印刷物の組成物は、65~95%重量パーセントのインク、5~15%重量パーセントの磁気粒子、及び5~30%重量パーセントの染料を混合調製することが好ましい。インク11に適量の磁気粒子10を添加し、インク11が乾燥する前に、磁気粒子10の磁気反応により、磁気粒子10の分布区域に立体効果を形成する。該磁気粒子10は、三酸化第二鉄が好ましい。 The composition of the printed material of the present invention is preferably prepared by mixing 65 to 95% by weight of ink, 5 to 15% by weight of magnetic particles, and 5 to 30% by weight of dye. An appropriate amount of the magnetic particles 10 is added to the ink 11, and before the ink 11 is dried, a three-dimensional effect is formed in the distribution area of the magnetic particles 10 by the magnetic reaction of the magnetic particles 10. The magnetic particles 10 are preferably ferric trioxide.
本発明のもう一つの実施例において、印刷物の組成物は65〜95%重量パーセントのインク、5〜15%重量パーセントの磁気粒子を混合調製による。この場合は、白黒対比の表現において、インク11は原色のまま磁気粒子10に混合すれば良い。 In another embodiment of the present invention, the composition of the print is by mixing 65-95% weight percent ink and 5-15% weight percent magnetic particles. In this case, in the expression of black and white contrast, the ink 11 may be mixed with the magnetic particles 10 while maintaining the primary color.
インク11は、ポリビニル(ポリ塩化ビニル)/ポリウレタン樹脂、イソフォロン、シクロヘキサノン、フェニル基アルキル溶液、エチレングリコール溶液を含まれる。 The ink 11 includes polyvinyl (polyvinyl chloride) / polyurethane resin, isophorone, cyclohexanone, phenyl group alkyl solution, and ethylene glycol solution.
図2は本発明の磁気発生ジグの構造概略図である。該ジグ16は磁石又は電気により磁気を発生させ、同極又は磁気強さ分布の異なるにより磁気粒子10の分布を改変する。磁気ジグ16を印刷版12の下部に取り付けることにより、内部吸着効果を発生し、インク11の凹み立体視覚効果を形成する。磁気ジグ16を印刷版12の上部に取り付けることにより、上部吸着効果を発生し、インク11の突き出す立体視覚効果を形成する。 FIG. 2 is a schematic structural view of the magnetic generation jig of the present invention. The jig 16 generates magnetism by a magnet or electricity, and modifies the distribution of the magnetic particles 10 by changing the homopolarity or magnetic strength distribution. By attaching the magnetic jig 16 to the lower part of the printing plate 12, an internal adsorption effect is generated, and a concave stereoscopic visual effect of the ink 11 is formed. By attaching the magnetic jig 16 to the upper part of the printing plate 12, an upper adsorption effect is generated, and a stereoscopic visual effect in which the ink 11 protrudes is formed.
該磁気ジグ16は電気による磁力の発生は、コイル方式により実現できる(図2)。この方式は、磁気強度を調節することにより、様々な立体視覚効果を形成できる。 The magnetic jig 16 can generate a magnetic force by electricity by a coil system (FIG. 2). This method can form various stereoscopic effects by adjusting the magnetic intensity.
インク11を印刷版12に塗布するとき、プリントスクリーンを印刷版12の上部に置く、インク11はプリントスクリーン又は鉄版の図画を印刷版12に塗布する。インク11に磁気粒子10を混合しているため、印刷版12に塗布したインク11は磁気体13の位置に従い、所定の位置に立体視覚効果を形成する。印刷設備15で印刷するとき、該印刷設備15にへら17又は転写設備を設ける。 When the ink 11 is applied to the printing plate 12, the print screen is placed on top of the printing plate 12, and the ink 11 applies a print screen or iron plate graphic to the printing plate 12. Since the magnetic particles 10 are mixed with the ink 11, the ink 11 applied to the printing plate 12 forms a stereoscopic effect at a predetermined position according to the position of the magnetic body 13. When printing is performed by the printing facility 15, the spatula 17 or the transfer facility is provided in the printing facility 15.
立体視覚印刷のインク11を乾燥した後、印刷品又は製品上に保護層14を塗布し、該保護層14はウレタン又は紫外線硬化インクの表面塗装により、印刷塗布層を保護し、立体視覚効果を強化する。図3、4は本発明の上部被せ式ジグの生産工程概略図である。スクリーン20に磁気粒子10を混合したインク11を混合し、仕上げる外観に従い、上部被せ式ジグ16を選択する。引き続き、印刷設備15に必要なスクリーン又は鉄版と立体視覚インクを組み合わせて印刷し、印刷完了後、印刷物にジグを被せておく、磁気により磁気粒子10の配列を改変する。該ジグ16は印刷物を15〜20秒間静置して、図画効果を成型した後に外して、ベーキング作業を経てインクを乾燥させる。 After drying the ink 11 for stereoscopic vision printing, a protective layer 14 is applied onto the printed product or product, and the protective layer 14 protects the printed coating layer by surface coating with urethane or UV curable ink, thereby enhancing the stereoscopic vision effect. To do. 3 and 4 are production process schematic diagrams of the top-covered jig of the present invention. The ink 11 mixed with the magnetic particles 10 is mixed with the screen 20, and the upper covering jig 16 is selected according to the finished appearance. Subsequently, the screen or iron plate necessary for the printing facility 15 is printed in combination with the stereoscopic visual ink. After the printing is completed, the printed matter is covered with a jig, and the arrangement of the magnetic particles 10 is modified by magnetism. The jig 16 leaves the printed matter for 15 to 20 seconds, removes it after molding the drawing effect, and dries the ink through a baking operation.
図5は、本発明の内部吸着式ジグ生産工程の概略図である。本実施例において、内部吸着式の生産工程を説明する。スクリーン20に磁気粒子10を混合したインク11を混合し、仕上げる外観に従い、上部被せ式ジグ16を選択する。印刷対象物を内部吸着式ジグ16に置いた後、立体視覚インク11とスクリーン又は鉄版と組み合わせて、印刷設備15で印刷を行う。印刷完了後、印刷物をジグ16に15〜20秒間を静置、必要な図画効果を成型した後取り外し、ベーキング作業を経て印刷インクを乾燥させる。 FIG. 5 is a schematic diagram of the internal adsorption jig production process of the present invention. In this embodiment, an internal adsorption type production process will be described. The ink 11 mixed with the magnetic particles 10 is mixed with the screen 20, and the upper covering jig 16 is selected according to the finished appearance. After the printing object is placed on the internal suction jig 16, printing is performed by the printing facility 15 in combination with the stereoscopic visual ink 11 and the screen or iron plate. After the printing is completed, the printed matter is allowed to stand in the jig 16 for 15 to 20 seconds, a necessary drawing effect is molded and then removed, and the printing ink is dried through a baking operation.
外観設計者により最終外観が決定された後、立体印刷の設計作業を開始できる。引き続き、必要な立体視覚効果の位置により磁気方向、極性と強度に基づいて、立体視覚効果磁気発生ジグ16を設計した上、外観要求により、適量の磁気粒子10のインク11を調合して、プリントスクリーン又は鉄版を印刷設備15に取り付けて使用する。 After the final appearance is determined by the appearance designer, the design work of the three-dimensional printing can be started. Subsequently, the stereo vision effect magnetism generating jig 16 is designed based on the magnetic direction, polarity and intensity according to the position of the required stereo vision effect, and then an appropriate amount of the ink 11 of the magnetic particles 10 is prepared and printed according to the appearance requirement. A screen or iron plate is attached to the printing facility 15 for use.
最後の立体視覚効果インク11の乾燥作業は、オーブンにてベーキング方式を経て、インクを乾燥させる。引き続き立体視覚効果インク11の表面に塗布層に塗布して保護を施す。塗料は必要により、ウレタン、紫外線硬化又はレーザーインクなどを表面に塗布層を塗布するか、又は必要により、高光沢あるいは低光沢硬化インクを表面保護層14とする。印刷層に保護提供するほか、立体視覚効果を向上できる。 The final drying operation of the stereoscopic visual effect ink 11 is to dry the ink through a baking method in an oven. Subsequently, the surface of the stereoscopic visual effect ink 11 is applied to the coating layer to protect it. If necessary, a coating layer is applied to the surface of urethane, ultraviolet curing, laser ink, or the like, if necessary, or high gloss or low gloss cured ink is used as the surface protective layer 14 if necessary. In addition to providing protection for the printed layer, it can improve the stereoscopic effect.
図6は本発明の立体視覚効果印刷物の生産工程概略図である。外観設計者により、最終外観が決定された後、立体印刷の設計作業を着手する。引き続き、必要な立体視覚効果の位置により磁気方向、極性と強度に基づいて、立体視覚効果磁気発生ジグを設計した上、外観要求により、適量の磁気粒子のインクを調合して、プリントスクリーン又は鉄版を印刷設備に取り付けて使用する。調合したインクをスクリーン又は鉄版に加えて、印刷設備より立体視覚効果を印刷した上、磁気発生ジグにより磁気粒子を吸着させ、立体視覚効果を形成した後、磁気ジグを外して、ベーキング作業に移して、乾燥させる。最後にウレタン又は紫外線硬化インクなどの保護層を塗布及び乾燥した後、立体視覚効果の印刷物を仕上げる。 FIG. 6 is a schematic view of the production process of the stereoscopic visual effect printed matter of the present invention. After the final appearance is determined by the appearance designer, the three-dimensional printing design work is started. Subsequently, a 3D visual effect magnetic generation jig is designed based on the magnetic direction, polarity and intensity according to the position of the required 3D visual effect, and then an appropriate amount of magnetic particle ink is prepared according to the appearance requirement, and printed screen or iron Install the plate in the printing facility. Add the prepared ink to the screen or iron plate, print the stereoscopic effect from the printing equipment, adsorb the magnetic particles with the magnetic generation jig to form the stereoscopic effect, remove the magnetic jig, and perform baking work Transfer and dry. Finally, a protective layer such as urethane or UV curable ink is applied and dried, and then a stereoscopic visual printed matter is finished.
本発明は使用するとき、外観によりネガフィルム、スクリーン、及び印刷ジク(必要な磁石の数、位置、磁気強度など)を制作するほか、必要な原料(インク65〜95%重量パーセント、磁気粒子5〜15%重量パーセント及び染料5〜30%重量パーセントの混合物)及び紫外線硬化インクを配置する。 When used, the present invention produces negative films, screens, and printed papers (number of required magnets, position, magnetic strength, etc.) according to the appearance, as well as necessary raw materials (ink 65-95% weight percent, magnetic particles 5). A mixture of ˜15% weight percent and 5-30% weight percent dye) and UV curable ink.
印刷のとき、原料をプリントスクリーンに注いでへらを2から4回往復して印刷を行った後、15〜20秒間静置し、磁気分子は磁石の磁気吸着効果により、所要の外観効果を形成し、間違いなく確認できた後、オーブンに移して20〜30分間ベーキング作業を経て印刷されたインクを乾燥させる。原料が乾燥した後、印刷物の表面に紫外線硬化インクを印刷ジクにより、立体視覚効果の図画上に保護層を形成して、再びオーブンに移して、20〜30分間ベーキング作業を行い、紫外線硬化インクを行い、立体視覚効果の印刷物作業を完了する(図7)。 At the time of printing, the raw material is poured onto the printing screen and printed by reciprocating the spatula 2 to 4 times, and then left to stand for 15 to 20 seconds. The magnetic molecule forms the required appearance effect due to the magnetic adsorption effect of the magnet. After confirming it, the ink is transferred to an oven and baked for 20 to 30 minutes to dry the printed ink. After the raw material is dried, the UV curable ink is printed on the surface of the printed material, a protective layer is formed on the stereoscopic visual effect drawing, transferred again to the oven, and baked for 20 to 30 minutes. To complete the printed work of the stereoscopic visual effect (FIG. 7).
10 磁気粒子
11 インク
12 印刷版
13 磁気体
14 保護層
15 印刷設備
16 ジグ
17 へら
20 スクリーン
DESCRIPTION OF SYMBOLS 10 Magnetic particle 11 Ink 12 Printing plate 13 Magnetic body 14 Protective layer 15 Printing equipment 16 Jig 17 Spatula 20 Screen
Claims (7)
外観設計者により最終外観が決定された後、立体印刷の設計作業を着手し、
立体視覚効果の位置に従い、磁力発生ジグを取り付け、
磁気粒子を適量にインクに調合し、調合したインクをスクリーン又は鉄版に注いで、印刷設備により立体視覚効果の印刷を仕上げ、
磁気ジグを外して、ベーキング作業を経て乾燥させることを特徴とする立体視覚効果印刷物の生産工程。 In the production process of printed matter having a kind of stereoscopic visual effect, the following procedure is provided,
After the final appearance is decided by the appearance designer, the design work of 3D printing is started.
According to the position of the stereoscopic visual effect, attach the magnetic force generation jig,
Prepare the appropriate amount of magnetic particles into the ink, pour the prepared ink on the screen or iron plate, and finish the printing of the stereoscopic effect by the printing equipment,
The production process of stereoscopic visual effect printed matter characterized by removing the magnetic jig and drying it after baking.
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| JP2006290309A JP2008107567A (en) | 2006-10-25 | 2006-10-25 | Production process of stereocospic visual sensation effect printed matter and its composition |
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| JP2006290309A JP2008107567A (en) | 2006-10-25 | 2006-10-25 | Production process of stereocospic visual sensation effect printed matter and its composition |
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| JP2008107567A true JP2008107567A (en) | 2008-05-08 |
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| CN108699281A (en) * | 2016-02-05 | 2018-10-23 | 株式会社Lg化学 | Composition for 3 D-printing |
| CN109266096A (en) * | 2018-10-11 | 2019-01-25 | 厦门汇烽新材料科技有限公司 | A kind of 3D ink and preparation method thereof |
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| CN108699281A (en) * | 2016-02-05 | 2018-10-23 | 株式会社Lg化学 | Composition for 3 D-printing |
| CN108699281B (en) * | 2016-02-05 | 2021-07-16 | 株式会社Lg化学 | Composition for three-dimensional printing |
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| CN106243824A (en) * | 2016-09-24 | 2016-12-21 | 德信嘉邦涂料(深圳)有限公司 | One can realize tool as strong relief magnetic ink |
| CN106634166A (en) * | 2016-09-24 | 2017-05-10 | 德信嘉邦涂料(深圳)有限公司 | Application of diamagnetic ink in glass |
| CN109334225A (en) * | 2018-09-21 | 2019-02-15 | 惠州市嘉信达科技有限公司 | A kind of printing equipment of magnetic paint and printing process |
| CN109334225B (en) * | 2018-09-21 | 2020-09-01 | 惠州市嘉信达科技有限公司 | Magnetic pigment printing equipment and printing method |
| CN109266096A (en) * | 2018-10-11 | 2019-01-25 | 厦门汇烽新材料科技有限公司 | A kind of 3D ink and preparation method thereof |
| CN113829727A (en) * | 2021-09-28 | 2021-12-24 | 广东阿特斯科技有限公司 | Production process of dumb mobile phone backboard |
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