WO2002097538A1 - A method of creating holographic image on printing surface - Google Patents

A method of creating holographic image on printing surface Download PDF

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Publication number
WO2002097538A1
WO2002097538A1 PCT/CN2001/001609 CN0101609W WO02097538A1 WO 2002097538 A1 WO2002097538 A1 WO 2002097538A1 CN 0101609 W CN0101609 W CN 0101609W WO 02097538 A1 WO02097538 A1 WO 02097538A1
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WO
WIPO (PCT)
Prior art keywords
holographic
coating
substrate
hologram
making
Prior art date
Application number
PCT/CN2001/001609
Other languages
French (fr)
Chinese (zh)
Inventor
Yong Xie
Weigang Yang
Jianxin Tang
Hongxun Chi
Tao Peng
Original Assignee
Section Of Science And Technology Development, Zhuzhou Institute Of Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CNB011144947A external-priority patent/CN100440076C/en
Priority claimed from CN 01235187 external-priority patent/CN2525563Y/en
Priority claimed from CN 01114493 external-priority patent/CN1376747A/en
Application filed by Section Of Science And Technology Development, Zhuzhou Institute Of Technology filed Critical Section Of Science And Technology Development, Zhuzhou Institute Of Technology
Priority to US10/478,654 priority Critical patent/US20040218238A1/en
Publication of WO2002097538A1 publication Critical patent/WO2002097538A1/en

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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03HHOLOGRAPHIC PROCESSES OR APPARATUS
    • G03H1/00Holographic processes or apparatus using light, infrared or ultraviolet waves for obtaining holograms or for obtaining an image from them; Details peculiar thereto
    • G03H1/02Details of features involved during the holographic process; Replication of holograms without interference recording
    • G03H1/0276Replicating a master hologram without interference recording
    • G03H1/028Replicating a master hologram without interference recording by embossing
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03HHOLOGRAPHIC PROCESSES OR APPARATUS
    • G03H2250/00Laminate comprising a hologram layer
    • G03H2250/40Printed information overlapped with the hologram
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03HHOLOGRAPHIC PROCESSES OR APPARATUS
    • G03H2270/00Substrate bearing the hologram
    • G03H2270/10Composition
    • G03H2270/12Fibrous, e.g. paper, textile

Definitions

  • the present invention relates to a laser hologram image and text imaging technology and manufacturing process, and particularly to a method and process for directly making a hologram text on a printing surface.
  • holograms have been favored by people, and have achieved unprecedented rapid development.
  • Laser holography is still the mainstream international anti-counterfeiting technology. It is easy to identify, difficult to imitate and easy to mass produce. It is difficult to be replaced by other anti-counterfeiting technologies in a short period of time.
  • Holography and anti-counterfeiting are almost regarded by people as if holographic trademarks are anti-counterfeiting trademarks, or anti-counterfeiting trademarks are holographic trademarks.
  • Compound (such as ZL99109562) has many procedures and requires special equipment. And materials, the production cost is relatively high, the application range is narrow, and it is mainly applicable to some seals.
  • Hot stamping (such as ZL00115394) This is a relatively successful application method. Its speed is fast, it can reach 10,000 sheets / hour, and the positioning is relatively accurate. Enterprises using this method also benefit more, but the hot stamping equipment, especially imported fixtures, is expensive, and the materials used must be from specialized manufacturers. Production virtually impedes its own development.
  • Holographic imaging and product manufacturing are two independent processes. Except for hot stamping, holographic images are generally copied first, and then printed on the hologram.
  • the United States patent discloses a method of directly coating a heat-sensitive material as a holographic image replication layer on a paper or plastic substrate, and then heating and molding to form a holographic pattern.
  • this method is limited to making holographic paper or holographic film.
  • As a holographic decorative pattern it is not used as anti-counterfeiting technology, but also on non-printed surfaces.
  • the laser hologram text layer on the printing level must neither destroy the printed printing pattern nor have excellent adhesion to the printing layer. If the laser hologram can be regarded as a kind of non-ink printed graphics, that is, the design effect and color are reproduced by using the radiation effect of light, then the traditional holographic technology will have new development.
  • the purpose of the present invention is to address the shortcomings of the existing holographic anti-counterfeiting technology, and propose a laser holographic image and text imaging method for performing holographic text copying on a surface layer of a printing ink on a substrate through a special method and process.
  • Another object of the present invention is to propose a specific manufacturing process determined according to the above laser image and text imaging method.
  • the substrate may be a certain substrate such as paper, plastic, metal, or leather, and the substrate may be a sheet or a roll.
  • ink printing is performed according to a conventional printing process, a printing layer is formed on the substrate, and then a transparent holographic coating medium with a laser holographic text printing function is coated on the surface of the printed layer of the printed substrate.
  • the coating method of the holographic coating medium may adopt any coating method such as roller coating, spray coating, brush coating, or shower coating, etc., and a layer of a transparent transparent holographic coating with thermoplastic is coated on the printing layer, and dried by infrared radiation heating and drying Conjunctiva to form a holographic medium layer.
  • the holographic coating medium can be calendered to obtain a bright and flat coating, which is used as the hologram.
  • Memory layer and then use a compression molding machine for holographic molding replication (coil can be used for general compression molding, sheet material should use a special platform type compression molding machine), the substrate coated with the holographic coating shield is passed through a compression molding machine The outer surface of the compression mold on the compression press is equipped with a holographic template.
  • the molding method can be a hot rolling method.
  • the molding die on the molding machine is a hollow roller.
  • the hollow part of the roller center is filled with hot oil for softening the holographic coating.
  • the holographic coating shield softens quickly under the action of the hot oil in the roller, and is rolled under the action of the holographic template to replicate the holographic text.
  • the imaging mechanism of laser holograms on the substrate printed pattern level is similar to that of other traditional substrates (plastic film, aluminized film). Both obtain holograms through holography, and then turn the holograms into The holographic metal plate is then copied to the printed matter by a hot stamping process.
  • the surface properties of the printed layer with ink are significantly different from plastic films or aluminized films.
  • the film that can be used to make holographic products has thermoplastic deformation properties and has a flat surface, which enables direct holographic text imprinting, especially after aluminum plating, due to the reflection effect of the metal aluminum layer, the holographic text can be greatly enhanced. Depending on the effect.
  • the printed matter is not the same.
  • holographic coating It is not possible to directly emboss the ink on the ink, nor to aluminize the printed matter (the aluminum layer covers the ink, and the original printing effect will be lost). Therefore, to produce a pattern with a holographic effect on the printing level, a special printing medium is needed. This medium should have excellent thermoplastic deformation properties, and stable fine holographic grating stripes can be obtained after deformation. At the same time, this medium must have sufficient transparency to ensure the visibility of the original printed graphics and colors.
  • This kind of special holographic printing media is called holographic coating.
  • the holographic coating used in the present invention is a transparent thermoplastic material and is a solvent-based comonomer, which includes a solvent-based copolymer resin and a solvent-based comonomer.
  • a copolymerized resin coating is formed as a laser holographic image reproduction coating.
  • the solvent-based coating is further divided into an alcohol-soluble copolymerized resin coating or a water-soluble copolymerized resin emulsion coating.
  • the coating ingredients are mainly composed of three parts: the main agent, the auxiliary agent and the solvent.
  • the main agent film-forming resin
  • the main agent film-forming resin is the film-forming substance of the coating.
  • the main agent of the water-soluble paint can be a copolymer resin made of an aqueous resin and polyvinyl alcohol.
  • the solvent may be a liquid containing water, ethylene glycol ether, butanol, and the like.
  • an environment-friendly holographic coating with high comprehensive properties such as high refractive index, high gloss, abrasion resistance, flexibility, and water resistance is obtained.
  • the main agent of alcohol-soluble coatings can be the copolymerization of monomers into resins and polyurethane resins.
  • the solvent can be a liquid containing ethylene glycol ether and butanol.
  • the coating has good film-forming properties, high gloss, high transparency, abrasion resistance, A series of excellent properties such as water resistance and aging resistance, and the applicability is extremely strong.
  • the smooth and smooth coating surface quality is the key factor, which requires high gloss and leveling of the holographic coating.
  • other physical and chemical properties of the coating such as folding resistance, abrasion resistance, and post-processing suitability, are also very important.
  • the holographic images and text recorded on the holographic coating use the diffraction effect of light to reproduce the holographic effect, while the original ink printed images and text use the reflection effect of light to express the printing effect. Due to the use of light In different ways, the holographic text does not interfere with the original ink printing effect. On the contrary, the transparent holographic coating enables the two printing effects to be displayed at the same time. And form a special decorative effect.
  • This technology can generate a laser holographic image on the surface of the printed substrate. After a reasonable decoration design, the transparent holographic image and the ink printed image cooperate with each other to obtain a special anti-counterfeiting printing effect;
  • this technology has the function of protecting the printing surface, and has the characteristics of improving brightness, water resistance, acid and alkali resistance, wear resistance, etc.
  • the holographic coating involved does not contain toxic substances, and the resulting holographic product does not contain plastic films or metal media, and is a completely recyclable environmentally friendly product.
  • FIG. 1 is a production process flow chart of the present invention
  • FIG. 2 is a schematic structural diagram of a product of the present invention
  • FIG. 3 is a schematic diagram of the processing method of the present invention.
  • the finished product of the present invention is composed of a holographic coating layer 1, a printing layer 2, and a substrate 3. Mold 6 and laser holographic mold on the passing mold 4 When the plate 7 is used, hot-molding is performed to copy the holographic text, and finally a transparent holographic text layer is formed on the surface of the printing layer to make a product with a holographic text layer.
  • the white cardboard is used as the substrate and the water-soluble holographic coating is used.
  • the manufacturing method is as follows:
  • the infrared drying three-roller coating machine is used to coat the prepared holographic coating on the printed sheet. After infrared drying, the substrate coated with the holographic coating is sent to the calender for calendering to improve Smoothness and gloss of holographic coatings.
  • the calender can be a steel belt calender.
  • the platform type press is a rolling device with a holographic roller.
  • the holographic roller is a hollow roller. The center of the roller is filled with hot oil to soften the holographic coating on the substrate.
  • the holographic roller jacket has a holographic template. Set process parameters: oil temperature 150 ° C, shaft temperature 100 ° C, pressure 2Mpa, machine speed 600rpm. Note: The hot pressing temperature should not be too high, otherwise the stickiness of the coating will be caused due to the increase in the viscosity of the coating, that is, the cardboard cannot be peeled off in time and is wound on the holographic embossing roller. This should be prevented during production. 5.
  • the holographic mold-replicated sheet is then peeled off ⁇ cooled to make a sheet with a holographic image after printing.
  • a metal sheet is used as a substrate; an alcohol-soluble holographic coating is used, and the manufacturing method is as follows:
  • the platform type press is a rolling device with a holographic roller.
  • the holographic roller is a hollow roller. The center of the roller is filled with hot oil to soften the coating of the substrate.
  • the holographic roller jacket has a holographic template. Set process parameters: oil temperature 180 "C, shaft temperature 120 ° C, pressure 2Mpa, machine speed 600rpm.
  • the sheet copied by holographic molding is then peeled off ⁇ cooled to make a printed sheet with a holographic image.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Holo Graphy (AREA)

Abstract

The present invention provides a method of creating holographic image on printing surface. The method renders the holographic pattern and color of the design by the optical diffraction effect. The basis material is firstly printed in conventional printing process, and then coated a layer of coating which has the laser holographic image printing function. For the rougher basis material such as general paper board, the coating layer can be calendered to improve the degree of brightness and smoothness to be as the memorial layer of holographic image, then be holographic-embossing reproduced on the embossing machine, so creating transparent holographic image on the printing surface.

Description

一种在印刷表面制作全息图文的方法 技术领域  Method for making holographic text on printing surface TECHNICAL FIELD
本发明涉及到一种激光全息图文成像技术及制作工艺,特别是在 印刷表面上直接制作全息图文的方法和工艺。  The present invention relates to a laser hologram image and text imaging technology and manufacturing process, and particularly to a method and process for directly making a hologram text on a printing surface.
背景技术 Background technique
全息图作为一项有效而实用的防伪技术受到人们的青睐,得到了 空前规模的迅猛发展。激光全息术迄今为止仍是国际上用于公众防伪 的主流技术,其便于识别,难于仿制和易于批量生产的特点很难在短 时期内被其它防伪技术所替代。全息和防伪几乎被人们等而视之, 似 乎全息商标就是防伪商标, 或防伪商标就是全息商标。  As an effective and practical anti-counterfeiting technology, holograms have been favored by people, and have achieved unprecedented rapid development. Laser holography is still the mainstream international anti-counterfeiting technology. It is easy to identify, difficult to imitate and easy to mass produce. It is difficult to be replaced by other anti-counterfeiting technologies in a short period of time. Holography and anti-counterfeiting are almost regarded by people as if holographic trademarks are anti-counterfeiting trademarks, or anti-counterfeiting trademarks are holographic trademarks.
激光像素全息照排制版系统的问世,标志着全息版的制作已从模 拟时代进入数字化时代,从而使得全息制版周期从过去的上十天, 缩 短到一两天, 制作成本大大降低; 同时也使得三维真彩色全息图更易 于实现, 并进入实用。  The advent of the laser pixel holographic phototypesetting system marks that the production of holographic plates has entered the digital era from the analog era, which has reduced the holographic platemaking cycle from the past ten days to one or two days, and greatly reduced the production cost. True color holograms are easier to implement and come into practical use.
当前全息复制技术仍以模压工艺(包括硬压及软压)为主, 将全 息图应用到商品上主要有以下几种方式:  The current holographic replication technology is still dominated by the molding process (including hard compression and soft compression). There are mainly several ways to apply the hologram to the product:
A、 标贴 最为原始的是人工标贴, 费时费力, 技术含量最低, 基 本上属于淘汰之列。 后来的自动标贴较前者效率大大提高, 需专 门的设备, 它对模压版的接缝质量要求较高。 目前部分企业使用 的就是这种方式。 这种方式适用于一般商标。  A. Labels The most primitive ones are manual labels, which are time-consuming and labor-intensive, and have the lowest technical content. They are basically eliminated. Later automatic labeling has greatly improved the efficiency compared with the former, requiring special equipment, which has higher requirements on the quality of the seams of the embossed plate. This method is currently used by some enterprises. This applies to general trademarks.
B、 复合 (如 ZL99109562)这种方式的工序较多, 需要专门的设备 和材料, 制作成本相对较高, 应用范围较窄, 主要适用于某些封 条。 B. Compound (such as ZL99109562) has many procedures and requires special equipment. And materials, the production cost is relatively high, the application range is narrow, and it is mainly applicable to some seals.
C、 烫印 (如 ZL00115394 ) 这是目前较为成功的一种应用方式。 它的速度较快, 可达到 10000张 /小时, 定位相对比较准确, 使用 这种方式的企业也因此获利较多, 但烫印设备特别是进口设 格昂贵, 使用的材料须由专门的厂家生产, 无形中阻碍了自身的 发展。  C. Hot stamping (such as ZL00115394) This is a relatively successful application method. Its speed is fast, it can reach 10,000 sheets / hour, and the positioning is relatively accurate. Enterprises using this method also benefit more, but the hot stamping equipment, especially imported fixtures, is expensive, and the materials used must be from specialized manufacturers. Production virtually impedes its own development.
总之, 现有全息应用技术的共同特点是:  In short, the common features of existing holographic application technologies are:
A、 多以塑料膜作为全息成像基材;  A. Mostly use plastic film as the holographic imaging substrate;
B、 需蒸镀金属层;  B. Metal layer needs to be evaporated;
C、 全息成像与产品制造(印刷、 成型)分别为两个独立的过程, 除烫印外, 一般是先进行全息图文复制,再在全息图上进行印刷; C. Holographic imaging and product manufacturing (printing, molding) are two independent processes. Except for hot stamping, holographic images are generally copied first, and then printed on the hologram.
D、 为了在纸塑铝复合制品上获得透明全息效果, 需在金属层上 采用透明油墨印刷(相当于金属印刷),不但改变了原有印刷工艺, 也大大提高了生产成本。 D. In order to obtain transparent holographic effect on paper-plastic aluminum composite products, it is necessary to use transparent ink printing (equivalent to metal printing) on the metal layer, which not only changes the original printing process, but also greatly increases the production cost.
美国专利(US5155604 )虽公开了一种在纸或塑料基材上直接涂 布一层热敏性材料作为全息图像复制层, 并经过加热、模压形成全息 图案的方法。但是该种方法仅限于制作全息像纸或全息胶片, 作为一 种全息装饰图案, 并非用做防伪技术, 而且是在非印刷表面上制作, 如何将激光全息图文直接制作在某种基材印刷有图案的层面上, 尚属一难题。其关键在于基材的印刷层面的图案是已经印制好的, 在 印刷层面上制作激光全息图文层必须既不破坏已印好的印刷图案又 须对印刷层具有优良的附着力。如果能将激光全息图文视作一种非油 墨的印刷图文, 即利用光的^ "射效应来再现设计图案和色彩, 那么传 统的全息技术将会得到新的发展。 The United States patent (US5155604) discloses a method of directly coating a heat-sensitive material as a holographic image replication layer on a paper or plastic substrate, and then heating and molding to form a holographic pattern. However, this method is limited to making holographic paper or holographic film. As a holographic decorative pattern, it is not used as anti-counterfeiting technology, but also on non-printed surfaces. How to make laser holograms directly on certain substrates and print At the level of patterns, it is still a problem. The key is that the pattern on the printing layer of the substrate is already printed. The laser hologram text layer on the printing level must neither destroy the printed printing pattern nor have excellent adhesion to the printing layer. If the laser hologram can be regarded as a kind of non-ink printed graphics, that is, the design effect and color are reproduced by using the radiation effect of light, then the traditional holographic technology will have new development.
发明概述 Summary of invention
本发明的目的在于针对现有全息防伪技术的不足,提出一种在基 材已有印刷油墨的表层上, 经过特殊的方法和工艺处理, 进行全息图 文复制的激光全息图文成像方法。  The purpose of the present invention is to address the shortcomings of the existing holographic anti-counterfeiting technology, and propose a laser holographic image and text imaging method for performing holographic text copying on a surface layer of a printing ink on a substrate through a special method and process.
本发明的另一目的是提出一种根据上述激光图文成像方法所确 定的具体制作工艺。  Another object of the present invention is to propose a specific manufacturing process determined according to the above laser image and text imaging method.
本发明的目的是通过下述技术方案得以实现的: 选择一种基材, 基材可以是纸、 塑料、 金属或皮革等某一种基材, 基材可以是片材或 卷材。 先按常规印刷工艺进行油墨印刷, 在基材上形成一印刷图层, 再在已印刷好图案的基材印刷层表面上 ,涂布一层具有激光全息图文 承印功能的透明全息涂层介质,全息涂层介质的涂布方法可以采用辊 涂、 喷涂、刷涂或淋涂等任一种涂布方式, 在印刷层上涂布一层具有 热塑性的透明全息涂料, 并通过红外线辐射加热干燥结膜, 形成全息 介质层, 若基材表面较为粗糙(如普通的白纸板等), 可对该全息涂 层介质进行压光处理, 以便得到一层光亮平整的涂层, 以此作为全息 图文的记忆层,再利用模压机进行全息模压复制(卷材可利用通用模 压机, 片材应使用特制的平台式模压机), 将涂布有全息涂层介盾的 基材, 通过一模压机, 模压机上的模压模具外表面装有全息模板, 在 带有全息涂层介质的基材送入模压机时,全息涂层在受热软化的同时 又在全息模板的作用下进行热模压复制全息图文,最后在印刷层表面 之上形成一层透明的全息图文层,该全息图文层可利用光的衍射效应 来再现设计图案和色彩。 其模压方式可以为热滚压方式,模压机上的 模压模具为中心为中空的辊筒,辊筒中心的中空部分充满用于软化全 息涂层的热油, 在带有全息涂层介质的基材送入模压机时, 全息涂层 介盾在辊筒内的热油作用下迅速软化,并在全息模板的作用下滚压下 复制全息图文。 The object of the present invention is achieved by the following technical solutions: selecting a substrate, the substrate may be a certain substrate such as paper, plastic, metal, or leather, and the substrate may be a sheet or a roll. First, ink printing is performed according to a conventional printing process, a printing layer is formed on the substrate, and then a transparent holographic coating medium with a laser holographic text printing function is coated on the surface of the printed layer of the printed substrate. The coating method of the holographic coating medium may adopt any coating method such as roller coating, spray coating, brush coating, or shower coating, etc., and a layer of a transparent transparent holographic coating with thermoplastic is coated on the printing layer, and dried by infrared radiation heating and drying Conjunctiva to form a holographic medium layer. If the surface of the substrate is rough (such as ordinary white paperboard, etc.), the holographic coating medium can be calendered to obtain a bright and flat coating, which is used as the hologram. Memory layer, and then use a compression molding machine for holographic molding replication (coil can be used for general compression molding, sheet material should use a special platform type compression molding machine), the substrate coated with the holographic coating shield is passed through a compression molding machine The outer surface of the compression mold on the compression press is equipped with a holographic template. When the substrate with the holographic coating medium is fed into the molding machine, the holographic coating is softened by heat while being hot-molded to replicate the holographic text under the action of the holographic template, and finally a transparent layer is formed on the surface of the printed layer Holographic text layer, which can use the diffraction effect of light to reproduce design patterns and colors. The molding method can be a hot rolling method. The molding die on the molding machine is a hollow roller. The hollow part of the roller center is filled with hot oil for softening the holographic coating. On the substrate with the holographic coating medium, When fed into the molding machine, the holographic coating shield softens quickly under the action of the hot oil in the roller, and is rolled under the action of the holographic template to replicate the holographic text.
在基材印刷图案层面上进行激光全息图文的成像机理与其它传 统的基材(塑料薄膜、 镀铝膜)基^目似, 均为通过全息照相得到全 息照片, 再将全息照片翻制成全息金属版, 然后通过热模压工艺将全 息图文复制到印刷品上。但具有油墨的印刷层面的表面性质与塑料薄 膜或镀铝膜有着明显的差别。可用于制作全息制品的薄膜本身具有热 塑变形性质, 且表面平整, 能直接进行全息图文压印, 尤其是经镀铝 后, 由于金属铝层的反射效应, 大大增强了全息图文的可视效果。 而 印刷品则不然, 既不能直接对油墨进行全息图文压印, 更不能对印刷 品进行镀铝处理(铝层覆盖油墨, 将丧失原有印刷效果)。 因此, 要 在印刷层面上制作具有全息效果图案, 需要借助一种特殊的承印介 质。 这种介质应具有优良的热塑变形性能, 且变形后能得到稳定的精 细全息光栅条纹, 同时这种介质必须具有足够的透明性, 以保证原有 印刷图文和色彩的可视性,我们把这种特殊的全息图文承印介质叫做 全息涂层。 根据基材及激光全息图文成像的一些特性,本发明所采用的全息 涂层为透明的热塑性材料, 为溶剂型的共聚单体物, 其中包含有溶剂 型共聚树脂,溶剂型的共聚单体物经过合成形成一种共聚合成树脂涂 料作为激光全息图文成像复制涂料,该溶剂型涂料又分为醇溶性共聚 合成树脂涂料或水溶性共聚合成树脂乳液涂料。 其涂料成分都由主 剂、 助剂和溶剂等三个部分组成, 主剂(成膜树脂)是涂料的成膜物 质, 膜层的品质及理化性能, 如光泽度、 耐折性、 后加工适性等均与 主剂的选择有关。其中, 水溶性涂料的主剂可用水性树脂和聚乙烯醇 制成的共聚树脂。溶剂可以是包含有水、乙二醇乙醚和丁醇等的液体。 合成后所得到的是一种具有高折光率、 高光泽、 耐磨、 柔韧性、 抗水 性等综合性能优异的环保型全息涂料。醇溶性涂料的主剂可以是单体 共聚合成树脂和聚氨酯树脂,溶剂可以是包含有乙二醇乙醚和丁醇的 液体, 该涂料具有成膜性好、 光泽度高、 透明度高、 耐磨、 耐水、 耐 老化等一系列优良性能, 而且适用性极强。 The imaging mechanism of laser holograms on the substrate printed pattern level is similar to that of other traditional substrates (plastic film, aluminized film). Both obtain holograms through holography, and then turn the holograms into The holographic metal plate is then copied to the printed matter by a hot stamping process. However, the surface properties of the printed layer with ink are significantly different from plastic films or aluminized films. The film that can be used to make holographic products has thermoplastic deformation properties and has a flat surface, which enables direct holographic text imprinting, especially after aluminum plating, due to the reflection effect of the metal aluminum layer, the holographic text can be greatly enhanced. Depending on the effect. However, the printed matter is not the same. It is not possible to directly emboss the ink on the ink, nor to aluminize the printed matter (the aluminum layer covers the ink, and the original printing effect will be lost). Therefore, to produce a pattern with a holographic effect on the printing level, a special printing medium is needed. This medium should have excellent thermoplastic deformation properties, and stable fine holographic grating stripes can be obtained after deformation. At the same time, this medium must have sufficient transparency to ensure the visibility of the original printed graphics and colors. We This kind of special holographic printing media is called holographic coating. According to some characteristics of the substrate and laser holographic imaging, the holographic coating used in the present invention is a transparent thermoplastic material and is a solvent-based comonomer, which includes a solvent-based copolymer resin and a solvent-based comonomer. After the materials are synthesized, a copolymerized resin coating is formed as a laser holographic image reproduction coating. The solvent-based coating is further divided into an alcohol-soluble copolymerized resin coating or a water-soluble copolymerized resin emulsion coating. The coating ingredients are mainly composed of three parts: the main agent, the auxiliary agent and the solvent. The main agent (film-forming resin) is the film-forming substance of the coating. The quality and physical and chemical properties of the film layer, such as gloss, folding resistance, and post-processing The suitability is related to the choice of the main agent. Among them, the main agent of the water-soluble paint can be a copolymer resin made of an aqueous resin and polyvinyl alcohol. The solvent may be a liquid containing water, ethylene glycol ether, butanol, and the like. After synthesis, an environment-friendly holographic coating with high comprehensive properties such as high refractive index, high gloss, abrasion resistance, flexibility, and water resistance is obtained. The main agent of alcohol-soluble coatings can be the copolymerization of monomers into resins and polyurethane resins. The solvent can be a liquid containing ethylene glycol ether and butanol. The coating has good film-forming properties, high gloss, high transparency, abrasion resistance, A series of excellent properties such as water resistance and aging resistance, and the applicability is extremely strong.
为了在全息涂层上获得良好的全息图视觉效果,光洁平整的涂层 表面质量是关键因素,这就要求全息涂料光泽度高、流平性好。此外, 涂料的其它理化性能, 如耐折性、 耐磨性、 后加工适性等也是十分重 要的。  In order to obtain a good holographic visual effect on the holographic coating, the smooth and smooth coating surface quality is the key factor, which requires high gloss and leveling of the holographic coating. In addition, other physical and chemical properties of the coating, such as folding resistance, abrasion resistance, and post-processing suitability, are also very important.
从光学原理来看,记录在全息涂层上的全息图文是利用光的衍射 效应来再现全息效果,而原有油墨印刷图文是利用光的反射效应来表 现印刷效果, 由于对光的利用方式不同, 全息图文并不干扰原有油墨 印刷的效果,相反, 透明的全息涂层使两种印刷效果能够同时得到表 现, 并形成一种特殊的装饰效果。 From the perspective of optical principles, the holographic images and text recorded on the holographic coating use the diffraction effect of light to reproduce the holographic effect, while the original ink printed images and text use the reflection effect of light to express the printing effect. Due to the use of light In different ways, the holographic text does not interfere with the original ink printing effect. On the contrary, the transparent holographic coating enables the two printing effects to be displayed at the same time. And form a special decorative effect.
采用本发明技术主要具有如下技术特征:  Adopting the technology of the present invention mainly has the following technical characteristics:
A、 本技术能对印刷后的基材表面生成激光全息图像, 经过合理 的装璜设计, 透明全息图像与油墨印刷图像相互配合, 可得到一 种特殊的防伪印刷效果;  A. This technology can generate a laser holographic image on the surface of the printed substrate. After a reasonable decoration design, the transparent holographic image and the ink printed image cooperate with each other to obtain a special anti-counterfeiting printing effect;
B、 本技术所得到的是透明全息, 不破坏原有印刷效果, 无需蒸 镀铝(或其它任何无机物)层; 并可充分利用印后处理设备, 而 融合于现有印刷工艺流程;  B. What is obtained by this technology is transparent holography, which does not destroy the original printing effect, and does not need to vapor-deposit an aluminum (or any other inorganic substance) layer; and can make full use of post-print processing equipment and integrate it into the existing printing process;
C、 本技术作为一种印刷后处理工艺方法, 全息涂层兼有保护印 刷表面的功能, 具有提高光亮度、 耐水、 耐酸碱、 耐磨等特点; C. As a post-printing process, this technology has the function of protecting the printing surface, and has the characteristics of improving brightness, water resistance, acid and alkali resistance, wear resistance, etc.
D、 所涉及的全息涂层不含有毒物质, 得到的全息制品不含塑料 薄膜或金属介质, 是一种可完全回收的环保型制品。 D. The holographic coating involved does not contain toxic substances, and the resulting holographic product does not contain plastic films or metal media, and is a completely recyclable environmentally friendly product.
附图说明 BRIEF DESCRIPTION OF THE DRAWINGS
图 1为本发明生产工艺流程图;  FIG. 1 is a production process flow chart of the present invention;
图 2为本发明产品结构示意图;  FIG. 2 is a schematic structural diagram of a product of the present invention;
图 3为本发明加工方法示意图。  Figure 3 is a schematic diagram of the processing method of the present invention.
图中 1、 全息涂层 2、 印刷层 3、 基材 4、 模压机 5、 带全 息涂层的基材 6、 模压模具 7、 激光全息模板  In the picture 1. Holographic coating 2. Printed layer 3. Substrate 4. Molding machine 5. Substrate with full coating 6. Molding mold 7. Laser holographic template
发明详细说明 Detailed description of the invention
下面将结合附图和实施例对本发明作进一步的描述:  The present invention will be further described below with reference to the drawings and embodiments:
从附图可以看出, 本发明的制成品由全息涂层 1、 印刷层 2、 基 材 3几部分所构成。在经过模压机 4上的模压模具 6以及激光全息模 板 7时, 进行热模压复制全息图文, 最后在印刷层表面之上形成一层 透明的全息图文层, 制成带有全息图文层的产品。 As can be seen from the drawings, the finished product of the present invention is composed of a holographic coating layer 1, a printing layer 2, and a substrate 3. Mold 6 and laser holographic mold on the passing mold 4 When the plate 7 is used, hot-molding is performed to copy the holographic text, and finally a transparent holographic text layer is formed on the surface of the printing layer to make a product with a holographic text layer.
实施例一:  Embodiment one:
采用白卡纸板作为基材, 使用水溶性全息涂料, 制作方法如下: The white cardboard is used as the substrate and the water-soluble holographic coating is used. The manufacturing method is as follows:
1、 将待印的基材送入常规印刷机内, 进行油墨印刷, 使其变成为 具有一定色彩和图案的片状平张纸。 1. Feed the substrate to be printed into a conventional printer and perform ink printing to make it into a sheet-like sheet of paper with a certain color and pattern.
2、 将 200份水性树脂和 100份水性乳液合成形成一种共聚乳液, 再加入聚乙烯醇构成主剂, 再加入溶剂水 100份、 乙二醇乙醚 100份和丁醇 100份, 混合形成水溶性共聚合成树脂乳液全息 涂料  2. Synthesize 200 parts of water-based resin and 100 parts of water-based emulsion to form a copolymer emulsion, and then add polyvinyl alcohol as the main agent, and then add 100 parts of solvent water, 100 parts of ethylene glycol ether and 100 parts of butanol, and mix to form a water-soluble solvent. Copolymerization into resin emulsion holographic coatings
3、采用红外干燥三辊式涂布机在印后平张纸上涂布配制好的全息 涂料, 经过红外线干燥后, 再将涂有全息涂料的基材送入压光 机压光, 以提高全息涂层的平滑度和光泽度。压光机可选用钢 带式压光机即可。  3. The infrared drying three-roller coating machine is used to coat the prepared holographic coating on the printed sheet. After infrared drying, the substrate coated with the holographic coating is sent to the calender for calendering to improve Smoothness and gloss of holographic coatings. The calender can be a steel belt calender.
4、再将片状带全息涂层的基材送入平台式模压机, 即可进行全息 模压复制工艺。 平台式模压机是一种带全息辊筒的滚压装置, 全息辊筒为一中空辊筒, 辊筒中心充满热油, 以软化基材上的 全息涂层,全息辊筒外套有全息模板。设定工艺参数:油温 150 °C , 轴温 100°C, 压力 2Mpa, 机速 600rpm。 注意: 热压温度 不宜过高, 否则由于涂料粘性加大, 会造成粘版现象, 即纸板 不能及时剥离, 而缠绕在全息压印辊筒上。 生产中应防止这种 情况出现。 5、 经过全息模压复制的片材再进行剥离→冷却,便制成了印刷后 具有全息图像的片材。 4. Then the sheet-shaped substrate with holographic coating is sent to the platform molding press, and the holographic molding replication process can be performed. The platform type press is a rolling device with a holographic roller. The holographic roller is a hollow roller. The center of the roller is filled with hot oil to soften the holographic coating on the substrate. The holographic roller jacket has a holographic template. Set process parameters: oil temperature 150 ° C, shaft temperature 100 ° C, pressure 2Mpa, machine speed 600rpm. Note: The hot pressing temperature should not be too high, otherwise the stickiness of the coating will be caused due to the increase in the viscosity of the coating, that is, the cardboard cannot be peeled off in time and is wound on the holographic embossing roller. This should be prevented during production. 5. The holographic mold-replicated sheet is then peeled off → cooled to make a sheet with a holographic image after printing.
实施例二: Embodiment two:
采用金属片材作为基材; 采用醇溶性全息涂料, 制作方法如下:A metal sheet is used as a substrate; an alcohol-soluble holographic coating is used, and the manufacturing method is as follows:
1、 将待印的基材送入常规印刷机内, 进行油墨印刷。 使其变成为 具有一定色彩和图案的平张金属印品; 1. Feed the substrate to be printed into a conventional printer for ink printing. Make it into a sheet metal print with a certain color and pattern;
2、将 200份单体共聚合成树脂和 100份聚氨酯树脂作为主剂, 再 加入溶剂乙二醇乙醚 100份和丁醇 100份,混合形成醇溶性共 聚合成树脂全息涂料;  2. Copolymerize 200 parts of monomers into resin and 100 parts of polyurethane resin as the main agent, then add 100 parts of ethylene glycol ether and 100 parts of butanol, and mix to form an alcohol-soluble copolymer to form a resin holographic coating;
3、采用喷涂法在印铁上涂布配制好的全息涂料, 经过红外线干燥 后, 制成具有全息涂层的印铁片状基材;  3. Apply the prepared holographic coating on the printed iron by spraying method, and then make the printed iron sheet substrate with holographic coating after infrared drying;
4、再将带全息涂层的片状基材送入平台式模压机, 即可进行全息 模压复制工艺。 平台式模压机是一种带全息辊筒的滚压装置, 全息辊筒为一中空辊筒, 辊筒中心充满热油, 以软化基材的全 息涂层、 全息辊筒外套有全息模板。 设定工艺参数: 油温 180 "C , 轴温 120°C, 压力 2Mpa, 机速 600rpm。  4. Then, the sheet-like substrate with the holographic coating is sent to the platform type molding machine, and the holographic molding replication process can be performed. The platform type press is a rolling device with a holographic roller. The holographic roller is a hollow roller. The center of the roller is filled with hot oil to soften the coating of the substrate. The holographic roller jacket has a holographic template. Set process parameters: oil temperature 180 "C, shaft temperature 120 ° C, pressure 2Mpa, machine speed 600rpm.
5、 经过全息模压复制的片材再进行剥离→冷却,便制成了印刷后 具有全息图像的片材。  5. The sheet copied by holographic molding is then peeled off → cooled to make a printed sheet with a holographic image.

Claims

权 利 要 求 Rights request
1、 一种在印刷表面制作全息图文的方法, 包括以下步骤: 1. A method for making a hologram on a printed surface, comprising the following steps:
A、 选定一种基材; A. Select a substrate;
B、 在所述的基材层面上印制常规的印刷图案层;  B. Printing a conventional printing pattern layer on the substrate level;
C、 在所述的印刷图案层表面上, 涂布用于制作全息图案的透明 的全息涂层介盾, 所述的全息涂层介质为透明的热塑性材料, 包含有 溶剂型共聚树脂, 全息涂层介质经红外线烘干后形成全息涂层; C. A transparent holographic coating shield for making a holographic pattern is coated on the surface of the printed pattern layer, and the holographic coating medium is a transparent thermoplastic material, which includes a solvent-based copolymer resin, and a holographic coating. The layer of medium is dried by infrared to form a holographic coating;
D、 将带有全息涂层的复合材料, 通过一模压机进行热模压, 模 压机上的模压模具外表面装有全息模板,在带有全息涂层的复合材料 送入模压机时,全息涂层在软化的同时又在全息模板的作用下模压复 制全息图文。 D. The composite material with a holographic coating is hot-molded by a molding machine. The outer surface of the molding die on the molding machine is provided with a holographic template. When the composite material with the holographic coating is fed into the molding machine, the holographic coating is applied. While softening, the holographic images are moulded and copied under the action of the holographic template.
2、 如权利要求 1所述的在印刷表面上制作全息图文的方法, 其 特征在于在印刷表面上全息涂层介质的涂布方法可以是辊涂、 喷涂、 刷涂或淋涂的任一种方式。  2. The method for making a hologram on a printed surface according to claim 1, characterized in that the coating method of the holographic coating medium on the printed surface can be any of roller coating, spray coating, brush coating or shower coating. Way.
3、 如权利要求 1所述的在印刷表面上制作全息图文的方法, 其 特征在于所述的模压方式为热滚压方式,模压机上的模压模具为中心 中空的辊筒, 辊筒中心的中空部分充满用于软化全息涂层的热油,在 棍筒的外表装有用于复制全息图文的全息模板。  3. The method for making a hologram on a printed surface according to claim 1, wherein the molding method is a hot rolling method, and the molding die on the molding machine is a hollow roller in the center, and the center of the roller is The hollow part is filled with hot oil used to soften the holographic coating, and a holographic template for copying holographic text is mounted on the exterior of the stick.
4、如权利要求 1、 2或 3所述的在印刷表面上制作全息图文的方 法, 其特征在于所述的基材层为纸基材。  4. The method for making a hologram on a printed surface according to claim 1, 2 or 3, wherein said substrate layer is a paper substrate.
5、如权利要求 1、 2或 3所述的在印刷表面上制作全息图文的方 法, 其特征在于所述的基材层为金属基材。 5. The method for making a hologram on a printed surface according to claim 1, 2 or 3, wherein the substrate layer is a metal substrate.
6、如权利要求 1、 2或 3所述的在印刷表面上制作全息图文的方 法, 其特征在于所述的基材层为皮革基材。 6. The method for making a hologram on a printed surface according to claim 1, 2 or 3, wherein said substrate layer is a leather substrate.
7、如权利要求 1、 2或 3所述的在印刷表面上制作全息图文的方 法, 其特征在于所述的基材层为塑料基材。  7. The method for making a hologram on a printed surface according to claim 1, 2 or 3, wherein the substrate layer is a plastic substrate.
8、 如权利要求 1所述的在印刷表面上制作全息图文的方法, 其 特征在于所述的全息涂层介质为热塑性透明的溶剂型水性共聚树脂 涂料, 其主剂包含有水性树脂和聚乙烯醇, 溶剂包含有水、 乙二醇乙 酸和丁醇。  8. The method for making a hologram on a printed surface according to claim 1, wherein the holographic coating medium is a thermoplastic transparent solvent-based water-based copolymer resin coating, and the main agent comprises a water-based resin and a polymer. Vinyl alcohol, the solvent contains water, ethylene glycol acetic acid and butanol.
9、 如权利要求 1所述的在印刷表面上制作全息图文的方法, 其 特征在于所述的全息涂层介盾为热塑性透明醇溶性共聚树脂,其中主 剂包含有单体共聚树脂和聚氨酯树脂, 溶剂包含有乙二醇乙醚和丁 醇。  9. The method for making a hologram on a printed surface according to claim 1, wherein the holographic coating is shielded by a thermoplastic transparent alcohol-soluble copolymer resin, wherein the main agent comprises a monomer copolymer resin and polyurethane Resin, the solvent contains ethylene glycol ether and butanol.
PCT/CN2001/001609 2001-05-28 2001-12-07 A method of creating holographic image on printing surface WO2002097538A1 (en)

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US10/478,654 US20040218238A1 (en) 2001-05-28 2001-12-07 Method of creating hoolgraphic image on printing surface

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
CNB011144947A CN100440076C (en) 2001-05-28 2001-05-28 Paper-base laser holographic text imaging technology and massive duplication process
CN01114493.9 2001-05-28
CN 01235187 CN2525563Y (en) 2001-05-28 2001-05-28 Platform type holographic paper moulding machine
CN 01114493 CN1376747A (en) 2001-05-28 2001-05-28 Paint for imaging laser hologram on paper
CN01235187.3 2001-05-28
CN01114494.7 2001-05-28

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7960011B2 (en) * 2005-03-09 2011-06-14 M-Real Oyj Markings and method of producing the same

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3744650A1 (en) * 1987-12-30 1989-07-20 Matthiesen Geb Sievers Gerda Holographic impression method
US5155604A (en) * 1987-10-26 1992-10-13 Van Leer Metallized Products (Usa) Limited Coated paper sheet embossed with a diffraction or holographic pattern
WO1997034170A2 (en) * 1996-02-29 1997-09-18 Ernest Chock Document with transparent, writable hologram and method
CN1273376A (en) * 2000-06-13 2000-11-15 叶献民 Antiforge lase rholographic pattern, correct locating method on printing it and its product

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5155604A (en) * 1987-10-26 1992-10-13 Van Leer Metallized Products (Usa) Limited Coated paper sheet embossed with a diffraction or holographic pattern
DE3744650A1 (en) * 1987-12-30 1989-07-20 Matthiesen Geb Sievers Gerda Holographic impression method
WO1997034170A2 (en) * 1996-02-29 1997-09-18 Ernest Chock Document with transparent, writable hologram and method
CN1273376A (en) * 2000-06-13 2000-11-15 叶献民 Antiforge lase rholographic pattern, correct locating method on printing it and its product

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7960011B2 (en) * 2005-03-09 2011-06-14 M-Real Oyj Markings and method of producing the same

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