The present invention relates to a printed design creating three-dimensional (3D) visual effect, and more particularly to a process and compound for producing a printed design creating 3D visual effect through an interaction between magnetic particles and a magnetic body.
Conventional printing techniques include silk screen printing, automatic plane screen printing, pad printing, etc. All these printing techniques use mono or multiple colors to print and create only a two-dimensional flat visual effect, and therefore fail to meet the nowadays requirements for showing novel appearances by effectively upgrading a product's visual impression or creating a 3D visual effect. With the wide application of computerized equipment, the color separation in printing process is now carried out using a computer, and a gray scale is employed in printing to present a 3D effect. However, the computerized printing equipment is expensive to largely increase the cost of printing, while the simulated 3D effect is limited.
A primary object of the present invention is to provide a process and a compound for producing a printed design creating 3D visual effect through an interaction between magnetic particles and a magnetic body.
To achieve the above and other objects, the compound of the present invention consists of a printing ink blended with magnetic particles, and the process of the present invention includes the steps of applying the printing ink containing magnetic particles onto a printing plate on a printing apparatus, and positioning a tool capable of producing a required magnetic force at a predetermined area of the applied printing ink, so that the magnetic particles in the area are attracted and gathered to form ups and downs in the area and create a 3D visual effect.
The compound of the present invention consists of 65˜95 wt % of printing ink, and 5˜15 wt % of magnetic particles. Preferably, the printing ink is added with dyes to adjust the color thereof.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
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The printing process creating 3D visual effect according to the present invention is different from the conventional printing techniques in that the present invention may be implemented with an existing printing apparatus 15 (see
Preferably, the compound of the present invention includes 65˜95 wt % of printing ink 11, 5˜15 wt % of magnetic particles 10, and 5˜30 wt % of dyes, which are well blended. The magnetic particles 10 added in the printing ink 11 react to magnetic force when the printing ink 11 is still wet, and are differently distributed under the magnetic force to create the 3D visual effect. Preferably, the magnetic particles 10 are iron oxide red (Fe2O3).
Another example of the compound of the present invention includes 65˜95 wt % of printing ink, and 5˜15 wt % of magnetic particles, which are well blended. When it is desired to create a black and white printed design, simply mix the printing ink 11 of a primary color with the magnetic particles 10 directly.
The printing ink 11 may contains polyvinyl, polyvinyl chloride, urethane resin, isophorone, cyclohexanone, phenyl alkyl solution, and ethylene glycol solution.
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Before the printing ink 11 is applied onto the printing plate 12, a screen plate or a stencil plate is first positioned on the printing plate 12, so that the printing ink 11 is coated on the printing plate 12 according to the design or designs defined on the screen plate or the stencil plate. Since the printing ink 11 has magnetic particles 10 blended therewith, it is possible to create a 3D visual effect at a predetermined area of the applied printing ink 11 on the printing plate 12 through arrangement of the magnetic body 13 below the printing plate 12 corresponding to the predetermined area. Preferably, such printing is performed using a printing apparatus 15, which includes a scraper 17 (see
When the printing ink 11 having created the 3D visual effect has become dried, a protective layer 14 may be applied over the finished 3D printed design, as shown in
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The design of a printing for creating a 3D visual effect may be started once an appearance designer has decided the final product appearance. Then, the direction, polarity, and strength of the magnetic force to be produced are determined according to the location at where the 3D visual effect is to be created, and the magnetic tool 16 is developed accordingly. And, the printing ink 11 blended with an adequate amount of magnetic particles 10, which is determined according to the required product appearance, and the suitable screen plate or stencil plate are prepared for printing on the printing apparatus 15.
The printing ink 11 having created a 3D visual effect is dried using a drying oven. Finally, a protective layer 14 is formed over the 3D surface of the dried printing ink 11. The material for the protective layer is selected depending on actual need, and may be PU paint, UV paint, or soft-touch paint. Alternatively, a varnish coating with high or low gloss may be used to form the protective layer 14 to not only protect the printed design, but also enhance the 3D visual effect.
In practical implementation of the present invention, a plate film, a screen plate, and a magnetic tool with magnets in the required number, at required locations, and having required magnetic strength are produced according to the actually required appearance. Meanwhile, the printing ink is prepared according to actual need to contain 65˜95 wt % of ink, 5˜15 wt % of magnetic particles, and 5˜30 wt % of dyes, which are well blended. The PU varnish coating is also prepared according to actual need. To print, the prepared printing ink is applied over the screen plate and a squeegee is moved to and fro on the printing ink for two to four times. The applied printing ink is then kept still for 15 to 20 seconds, so that the magnetic particles in the printing ink are affected by the magnetic force produced by the magnetic tool to create the desired 3D appearance. When the created appearance is confirmed as correct, the printed design is positioned in the drying oven for 20 to 30 minutes to dry the printing ink. The prepared PU varnish coating is then applied over the dried printing ink to form the protective layer on the 3D appearance. The printed design is then positioned in the drying oven for another 20 to 30 minutes to dry the PU varnish coating. The whole process for producing a printed design creating 3D visual effect is then completed.
A drawing showing one example of the printed designs produced using the process and the compound of the present invention is submitted along with the present application for reference as shown in