The present invention relates to a method and apparatus for forming fine lines on a carrier, and more particularly to a method and apparatus for forming fine lines by means of a curing coating.
Taiwan patent No. 138,863 discloses the combination of a holographic film formation and printing process, in which fluid resin is spread on one face of a paper, and a holographic pattern is formed on the resin with a plastic mold. And an electron beam is illuminated to cause the fluid resin to be hardened to form a holographic pattern.
Taiwan patent No. 592,950 discloses a film solvent-resistant laser holographic pattern and manufacture thereof in which a plastic film is combined with a UV resin film to allow the UV resin film to be tightly stuck to a metal wheel engraved with a laser holographic pattern. The UV resin film tightly stuck to the metal wheel is illuminated with UV light to cause the resin film to be hardened and stuck tightly with the plastic film. And, the UV resin is then caused to be separate from the metal. Finally, the laser holographic pattern is reproduced on the UV resin.
The U.S. Patent Pub. No. 20040241404 discloses a paper with holographic pattern and manufacture of it also mentions that a UV resin is tightly stuck with a metal wheel engraved with a laser holographic pattern and the laser holographic pattern is caused to reproduce on the UV resin layer by means of UV illumination.
The patents mentioned above disclose that the engraved wheel is used to stick with a curing coating and an electron beam or UV light is then illuminated to cause the curing coating to be hardened to form pattern lines.
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For improving the defect that the corresponding slit will be yielded on a curing coating film when lines of a conventional engraved wheel stuck with a engraved film is reproduced onto the curing coating film, the present invention is proposed.
The main object of the present invention is to provide a method and apparatus for forming fine lines by means of a curing coating, allowing the lines reproduce onto a curing coating film without slits so as to enhance the manufacturing quality of the fine lines.
Another object of the present invention is to provide a method and apparatus for forming fine lines by means of a curing coating, capable of utilizing engraved wheels to manufacture a fine lines product without slits continuously so as to enhance the manufacturing efficiency.
The present invention can be more fully understood by reference to the following description and accompanying drawings, in which:
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A plastic film or metal plate with lines is respectively stuck on the circumferences of the first impressing wheel 40 and the second impressing wheel 43 or lines is respectively fabricated on the circumferences of the first impressing wheel 40 and the second impressing wheel 43 such as a holographic laser impressing wheel disclosed in Taiwan Patent No. 549,744.
The curing coating used in the present invention can be an electron team or UV light curing coating. The light emitting source 54 can be an electron beam emitter or UV light to emit an electron beam or UV light.
A first preferred embodiment according to the present invention used to carry out the method mentioned above is to allow the one end of the long strip type carrier 30 to be wound around a roller wheel 61 and another end thereof contacts, turns and detours a first film carrying wheel 62, the first impressing wheel 40, a second film carrying wheel 65 and the second impressing wheel 43 in a sequence and is wound around and driven by another roller wheel 66. The roller wheel 66 is used to roll in the carrier 30 fabricated with the continuous lines in the embodiment.
A first mobile spreading mechanism 63 can be moved toward or separated from the first film carrying wheel 62 to touch or depart from another side of the carrier 30 contacted with the first film carrying wheel 62, as
A second mobile spreading mechanism 64 can be moved toward or separated from the second film carrying wheel 65 to touch or depart from another side of the carrier 30 contacted with the second film carrying wheel 62, as FIG. 3 shows. The second spreading mechanism 64 allows the vacant zone 32 and the areas adjacent thereto of the carrier 30 to form the second spread zone 34. The structure of the second spreading mechanism 64 same as the one of the first spreading mechanism 63 also has a first glue carrying wheel 641, second glue wheel 642 and glue tray 643; the function thereof is also the same as the one of the first spreading mechanism 63, the only difference is to spread the curing coating onto the carrier 30 to form the second spread zones 34. The second spreading mechanism 64 can also omit the first glue carrying wheel 641 and the second glue carrying wheel 642 can directly be used to spread the curing coating onto the carrier 30.
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One characteristic of the embodiment mentioned above is to allow the mobile first spreading mechanism 63 to contact discontinuously with the first impressing wheel 40, spread the curing coating onto the first impressing wheel 40 and then allow the curing coating to be stuck intermittently onto the carrier 30 to cause the carrier 30 to have the first spread zone 31 and the vacant zone 32. The pressing wheels 41 and 44 and the first impressing wheel 40 are used to sandwich the carrier 30 among them to cause the carrier 30 to be closely stuck with the first impressing wheel 40. The light emitting source 51 is utilized to illuminate an electron beam or UV light to cause the curing coating on the first spread zone 31 to be formed with lines and hardened, and combine stably with the carrier 30.
Another characteristic of the embodiment mentioned above is to allow the mobile second spreading mechanism 63 to contact discontinuously with the second impressing wheel 43, spread the curing coating onto the first impressing wheel 40 and then allow the curing coating to be stuck intermittently onto the carrier 30 to cause the carrier 30 to have the second spread zone 32. The pressing wheels 42 and 45 and the second impressing wheel 43 are used to sandwich the carrier 30 among them to cause the carrier 30 to be closely stuck with the second impressing wheel 43. The light emitting source 52 is utilized to illuminate an electron beam or UV light to cause the curing coating on the second spread zones 32 to be formed with lines and hardened, and combined stably with the carrier 30.
The method according to the present invention is utilized to improve the defect that the corresponding slits are formed on the curing coating film when the lines are transferred through a general impressing wheel of a plastic film or a metal with lines so that the slits will not be yielded on the lines transferred to the curing coating film so as to enhance the quality or the fabricated fine line, and the impressing is used to fabricate fine lines without slits and so as to enhance the production efficiency.
Additional advantages and modifications will readily occur to those skilled in the art. Therefore, the invention in its broader aspects is not limited to the specific details and representative embodiments shown and described herein. Accordingly, various modifications may be made without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents.