KR20100090922A - Hologram adhering apparatus for gravure printing presses - Google Patents

Abstract

PURPOSE: A hologram attaching apparatus for a gravure device is provided to enhance the productivity through the enhancement of the attaching performance of metallic hologram by attaching the hologram through the heating the rear of the shrinked film on which hologram has been attached. CONSTITUTION: A hologram attaching apparatus for a gravure device comprises a plurality of color printing units(100i,100n). The final color printing unit comprises a hologram attaching unit(300). The hologram attaching unit passes through each color printing unit while the hologram is attached to the printing layer of the shrinked film which has finished a printing process. The hologram attaching unit comprises a hologram feed roller(310), a paper lamination roller(320a), a heating unit(330) and a release paper roller(340). The hologram feed roller continuously supplies the hologram paper(311). The heating unit thermally fuses each hologram to the hologram position. The release paper roller rewinds the release paper(311a) of the hologram paper from the shrinked film.

Description

Hologram adhering Apparatus for Gravure Printing Presses}

The present invention relates to a hologram attachment device for a gravure printing machine, and more particularly, to a hologram attachment device for a gravure printing machine that enables the hologram to be automatically attached to the shrink film finished gravure printing.

In general, the gravure printing machine is widely used in various fields such as general prints, packaging materials, and building materials because it is possible to prepare a pattern having a beautiful color tone and gradation.

The gravure printing machine includes a plurality of color printing units, a winder on which the shrink film is wound, and a rewinder on which the printed shrink film is rewound. Here, the color printing unit can be used by installing the number arbitrarily according to the color. That is, in the case of a 2 degree gravure printing machine, two printing units are used, and in the case of 5 degree, five printing units are configured and used.

The color printing unit includes an ink cylinder for transferring the corresponding color to a shrink film, a heater for drying the transferred color ink, and a plurality of rolls for transferring the film in a predetermined form.

In the gravure printing machine, the shrink film transferred along the roll is printed with a predetermined color on each ink cylinder of each color printing unit. Then, the printed shrink film is rewound to the rewinder after the color is dried by the heater.

However, the conventional gravure printing machine uses a lot of gold foil or holograms in order to maximize the effect of the company logo, label, or advertisement in the case of wrapping paper, and after printing the hologram, a problem occurs that must be performed through a separate work process. do.

The present invention has been made in view of this point, by providing a hologram attachment means to directly attach the hologram on the gravure printing finished film, it is possible to obtain the finished product by attaching the hologram at the same time without gravure printing It is a first object to provide a hologram attachment device for a gravure printing machine.

In addition, the present invention is configured so that the heating means used to attach the hologram is located on the back of the shrink film is attached to the hologram, it is possible to significantly reduce the amount reflected by the hologram, so that the defective rate caused by the hologram is separated or dropped It is a second object to provide a hologram attachment device for a gravure printing machine can be reduced to improve the marketability.

Holographic attachment device for gravure printing machine to achieve this purpose,

In the gravure printing machine including a plurality of color printing unit (100a ~ 100n),

The final color printing unit 100n is provided with hologram attaching means 300 for attaching the hologram to the printed layer of the shrink film 200 which has finished the printing process while passing through each color printing unit 100a to 100n,

Hologram attachment means 300,

A pair of hologram supply rollers 310 for continuously supplying the hologram paper 311;

The paper-rolling roller 320a for laminating the shrink film 200 having the adhesive applied to the hologram seat surface and the hologram paper 311 having the hologram at a position corresponding to the hologram seat surface while passing through the final color printing unit 100n. , 320b);

Heating means (330) for thermally welding each hologram to a hologram seat; And

And a release paper roller 340 for rewinding the release paper 311a of the hologram paper 311 from the shrink film 200.

In particular, the heating means 330 is characterized in that the UV heater disposed radially on the outer circumferential surface of the pressure roller 331 for pressing the laminated shrink film 200 and the hologram paper 311, the shrink film 200 It is characterized in that it was installed in the back side.

In addition, the heating means 330 is characterized in that installed on top of the laminated shrink film 200 and the hologram paper (311).

According to the present invention has the following effects.

1) If the hologram should be attached like a wrapping paper, it can be done with printing without any additional process after printing. Therefore, work efficiency can be improved.

2) Since the hologram is attached by heating on the back of the shrink film with the hologram attached, the adhesiveness can be improved even if the hologram is made of metal, thereby improving the merchandise.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a view showing a gravure printing machine equipped with a hologram attachment device according to the present invention. Here, reference numeral 130 denotes a roll, which is provided in each of the color printing units 100a to 100n to maintain the traveling direction of the shrink film 200 and the like. A plurality of such rolls are provided, but typically only one of them is displayed.

The present invention typically further comprises a hologram attachment means 300 to attach the hologram on the printed shrink film 200 to a gravure printing machine including two or more color printing units 100a to 100n.

In particular, the hologram attachment means 300 is installed in the final color printing unit (100n) of the plurality of color printing units (100a ~ 100n), as shown in FIG. This is to allow the hologram to be attached to the hologram seat surface at a predetermined position on the shrink film 200 in a state where the patterns of various colors are completely printed on the shrink film 200 in advance. That is, the holographic seat surface is set in advance in order to attach the hologram to the shrink film 200. And gravure printing is made about the part except this hologram seat surface.

In addition, in a preferred embodiment of the present invention, the hologram attachment means 300 may use the ink cylinder 110 of the final printing unit (100n). The ink cylinder 110 may be used to apply an adhesive used to attach the hologram to the shrink film 200 to the hologram seat surface of the shrink film 200.

Meanwhile, the hologram attachment means 300 includes a pair of hologram supply rollers 310 for continuously supplying the hologram paper 311 with the hologram attached thereto at a position corresponding to the hologram seating surface.

The hologram paper 311 is attached to a hologram at a position corresponding to the above-described hologram seating surface on the release paper 311a manufactured to have the same width as the shrink film 200 or the same or larger width as the hologram. The hologram paper 311 is wound on the hologram supply roller 310 and supplied to the lamination rollers 320a and 320b which will be described later.

In particular, in the preferred embodiment of the present invention, the hologram paper 311 is preferably wound around two hologram feed rollers 310 to be used. This is to allow the hologram paper 311 of the other hologram feed roller 310 to be directly supplied when the hologram paper 311 of one hologram feed roller 310 is consumed so that the work can be performed without interruption.

In addition, the hologram attachment means 300 comprises a paper roller (320a, 320b). The lamination rollers 320a and 320b serve to attach the hologram to each hologram seat of the shrink film 200 by pressing the shrink film 200 and the hologram paper 311 so as to overlap each other. The lamination rollers 320a and 320b may constitute a pair of lamination rollers 320a and 320b as shown in FIG. 3, and may supply a shrink film 200 and a hologram paper 311 therebetween.

In addition, the paper rollers 320a and 320b may further include a pressure roller 331 to be used for the paper. As shown in FIG. 2, a pair of stacking rollers 320a and 320b are installed around the pressure roller 331. At this time, the hologram paper 311 is configured to move along the pressure roller 331 by one paper roller 320a, the shrink film 200 is the pressure roller 331 by the other paper roller 320b. While moving along, it overlaps with the hologram paper 311. Particularly, in the preferred embodiment of the present invention, the arrangement of the lamination roller 320a and the pressure roller 331 causes the hologram paper 311 to contact the surface of the pressure roller 331, and the shrink film 200 thereon. It is preferable to configure so that they overlap and are laminated.

On the other hand, the hologram attachment means 300 comprises a heating means 330. The heating means 330 is to attach the adhesive for attaching the above-described hologram by heat fusion or the like. In the preferred embodiment of the present invention, a UV heater may be used.

In particular, the heating means 330 may be installed at various positions in order to improve the attachment efficiency or the shape of the hologram attachment means 300. For example, as shown in FIG. 2, the heating means 330 may be disposed on the outer circumferential surface of the pressure roller 331 at equal intervals. The heating means 330 installed as described above is cured by heating the adhesive on the rear surface of the shrink film 200. At this time, since the hologram paper 311 is positioned between the shrink film 200 and the pressure roller 331, the thermal fusion effect can be further enhanced because the hologram paper 311 is not disturbed by the hologram.

In addition, the heating means 330 may be configured to be arranged side by side on the top of the shrink film 200, as shown in Figure 3 when using a pair of lamination roller (320a, 320b). Of course, in this case, the shrink film 200 may be disposed to be positioned below the center. Most preferably, as described above, the configuration in which the heating means 330 is disposed to be positioned on the rear surface of the shrink film 200 to which the hologram paper 311 is not attached is most preferable.

Finally, the hologram attachment means 300 is configured to further include a release paper roller 340. The release paper roller 340 is a roller for separating the release paper 311a from the shrink film 200 while the hologram is transported by the heating means 330 to the shrink film 200. The release paper roller 340 is installed between the heating means 330 and the rewinder 400b as shown in FIG. 2. Then, the release paper roller 340 is wound while pulling the release paper (311a) with a constant tension.

The holographic attachment means 300 made in this way is supplied with the shrink-printed film 200 after the printing of the pattern as it passes through the final color printing unit 100n by a conventional method. Here, the shrink film 200 is not only the printing of the design is completed, the adhesive is applied to the hologram seat surface by the ink cylinder 110 when passing through the final color printing unit (100n).

The supplied shrink film 200 is laminated by the hologram paper 311 so that the hologram is positioned on each hologram seat surface by the lamination rollers 320a and 320b. Accordingly, the hologram is primarily bonded by the adhesive.

The bonded hologram is firmly attached to the shrink film 200 as the gluing agent is cured by the heating means 330, and the shrink film 200 is transferred to the rewinder 400b while being transferred to the rewinder 400b. In 340, the release paper 311a, which fixed the position of the hologram, is rewound.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 shows a gravure printing machine equipped with a hologram attachment device according to the present invention.

Figure 2 is a schematic diagram schematically showing an embodiment of the hologram attachment device according to the present invention.

3 is a schematic diagram schematically showing another embodiment of the hologram attaching device according to the present invention;

<Description of the symbols for the main parts of the drawings>

100a ~ 100n: Color printing unit

110: ink cylinder

120: heater

130: roll

200: shrink film

300: hologram attachment means

310: hologram feed roller

311: hologram paper

311a: Release paper

320a, 320b: paper roller

330: heating means

331: tender roller

340: Release paper roller

400a: Winder

400b: Rewinder

Claims (4)

In the gravure printing machine including a plurality of color printing unit (100a ~ 100n), The final color printing unit 100n is provided with hologram attaching means 300 for attaching the hologram to the printed layer of the shrink film 200 which has finished the printing process while passing through each of the color printing units 100a to 100n. , The hologram attachment means 300, A pair of hologram supply rollers 310 for continuously supplying the hologram paper 311; While passing through the final color printing unit (100n) for laminating the hologram paper 311 provided with a hologram at a position corresponding to the shrink film 200 and the hologram seat surface coated with the hologram seat surface Paper rollers 320a and 320b; Heating means (330) for thermally fusion the hologram to the hologram seat; And And a release paper roller (340) for rewinding the release paper (311a) of the hologram paper (311) from the shrink film (200). The method of claim 1, The heating means 330 is a gravure printing machine characterized in that the radially disposed UV heater on the outer circumferential surface of the pressure roller 331 for pressing the laminated film and the hologram paper 311 Hologram Attachment. The method of claim 2, The heating means 330 is a gravure printing machine holographic attachment device, characterized in that installed on the back of the shrink film (200). The method of claim 1, The heating means (330) is a holographic attachment device for gravure printing, characterized in that installed on top of the shrink film 200 and the hologram paper (311).

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