Printing – Multicolor – Processes
Reexamination Certificate
2002-11-01
2004-02-17
Eickholt, Eugene H. (Department: 2854)
Printing
Multicolor
Processes
C101S181000, C101S491000, C101S216000, C427S258000, C427S259000
Reexamination Certificate
active
06691610
ABSTRACT:
FIELD OF THE INVENTION
This invention is directed toward a method for printing metallic inks. More particularly, this invention is directed toward a method for printing multiple colored metallic inks. Even more particularly, this invention is directed toward using a single metallic ink to produce any desired metallic ink or any desired combination of multiple colored metallic inks.
BACKGROUND OF THE INVENTION
Current methods employed to produce colored metallic ink printing typically require the creation of knockouts or traps to accommodate the metallic ink, setting up the paper and presses to receive the metallic inks and creating the knockouts or traps in pre-press to prepare them for the next printing operation. These are costly, time consuming and labor intensive operations. While many attempts have been made to overcome these problems and reduce operation costs, none have been completely satisfactory.
For example, U.S. Pat. No. 1,454,767 to Gillbee discloses a process for manufacturing commercial paper wherein a liquid bronze is applied to the surface of the paper. The paper is then dried and a color is applied over the dried paper.
U.S. Pat. No. 3,751,282 to Massa discloses a method for printing solid colored areas on a surface by combining layers of colored ink with a layer of finely divided white pigment.
U.S. Pat. No. 5,370,976 to Williamson, et.al. discloses a metallic color printing process wherein an image is screened to create four color separations of the screened image. Metallic gold and/or metallic silver color separation is achieved by electronically selecting the color area where an effect is desired.
U.S. Pat. No. 5,496,567 to Leung discloses a method for metallic coating a plastic sheet by applying two layers of ink. The first layer is applied by lithographic printing in a pattern that includes open spaces and contains a color that forms the base of the article. The second layer is a metallic color layer.
U.S. Pat. No. 5,598,777 to DeMoore, et.al. discloses a retractable printing/coating unit. A metallic powder is applied to a previously printed substrate to produce a grainy, textured finish.
U.S. Pat. No. 5,638,752 to Hartung, et.al. discloses a multicolor offset printing press for printing materials and coating them in-line. The printing press includes an in-line flexographic printing/lacquering unit for applying fluid coatings to materials printed by the printing press. The press is utilized to produce metallic luster coatings.
U.S. Pat. No. 5,656,331 to Kline discloses a method for printing a substrate having a metallic finish bypoating a printed substrate with three coats of ink. The first coating applied is a solid coating; the second coating applied is a moire pattern color, and, the third coating applied is a water pearl color.
U.S. Pat. No. 5,733,634 to Karel discloses a color printing process of an opaque substrate sheet. One side of the sheet has a reflective metallic appearance to which there is applied a first coating of white dots. A second coating of process colors is then applied over the first coating.
These illustrative metallic printing approaches are costly, time consuming and labor intensive requiring the use of specialized or expensive machinery and do not readily permit the printing of multi-colored metallic inks.
SUMMERY OF THE INVENTION
It has now been found that the shortcomings of these typical metallic ink printing approaches have been overcome by the method of the present invention. In general, the method of the present invention comprises: transferring a fountain solution onto a printing substrate; concurrently transferring a first imprint ink onto said printing substrate; transferring a foundation metallic ink onto said first imprint ink; transferring a second imprint ink onto said foundation metallic ink; and, transferring one or more process ink colors onto said second imprint ink.
In one embodiment, the pH of the fountain solution is adjusted to be from about 3.7 to about 3.9.
In another embodiment, although the first foundation ink can be of any color, it is preferably black.
In a further embodiment, the foundation metallic ink is a reformulated silver metallic ink although other metallic ink colors can also be employed. In addition, the silver metallic ink is formulated with a sufficient amount of drying agent to impart a tack to it of from about 14 to about 16.
In still another embodiment, the second imprint ink is preferably black, although other ink colors can be used
In yet another embodiment, the process color inks employed are those selected from the group consisting of blue, red and yellow. By appropriate mixing of these process colors, other colors, hues and tints can be attained. For example, proper mixing of blue and red process colors can provide violet and magenta hues. Similarly, proper mixing of blue and yellow process colors can afford green and aqua tints. Also, proper mixing of process colors red and yellow can yield orange and gold colors. These mixing techniques and the colors, tints and hues that can be obtained are all within the expertise of the skilled artisan in this field.
By utilizing the method of the invention, the metallic prints obtained do not have to be varnished and they will not chalk or become marked. In addition, only the separations on the foundation silver metallic ink need to be knocked out as the color process inks are printed over the foundation silver metallic ink; i.e., trapped on top of it. Consequently, the only registration required for full coverage is block registration.
Thus, the method of the invention enables a single, reformulated metallic ink to be used to create any desired or required multicolored metallic ink pattern. As a result, the process color metallic inks can be printed as desired or required ranging from tints to solids to screen built colors. By using the simple block registration afforded by the method of the invention, one can create excellent registration qualities in full metallic ink coverage resulting in less paper waste, faster “make readies” and the ability to print exclusively on 28-32 pound coated paper.
Utilizing the method of the invention enables one to properly control ink flow and water balance. In addition, the method of the invention enables one to control process colors such as separation and art without contaminating the process colors which can be selected from a full coverage range of metallic inks. Since most metallic inks are run either first down or last down, the method of the invention also facilitates release of the inks from blankets and permits control of tension and registration.
As used throughout this application and in the appended claims, the following terms and expressions have the stated meanings:
Blankets-
in offset lithography, this denotes a rubber-surfaced
sheet that is clamped around a cylinder and that
transfers an image from a plate to paper.
Block-
denotes simple printing registration
Block Register-
denotes the fitting of two or more printing images
upon the same sheet of paper in exact alignment with
one another.
Fountain
Solution-
denotes a commercially obtained solution that is
added to tap water and that aids the printing process
by preventing applied ink(s) from sticking to printing
substrates
Knockouts-
denote openings in an image created in the
preparation process that enables another image to be
printed in that place such as a solid color having an
opening within it and another image placed in that
opening.
PMS-
denotes the “Pantone Measuring System”; a book
comprised of hundreds of colors and the formulas
used to create them.
Putting Down-
denotes applying an ink to a printing substrate such
as a printing roller, a printing plate, and the like.
Solid-
denotes 100% of a color
Screens-
denote a percentage of a color, usually 5-95%
Screen Built
Colors-
denote colors that are made up of different
percentages of screened colors
Traps-
denote the printing of a color on paper; as the paper
is run to next printing unit, another color is printed
onto the first color.
It should also be understood that, unless othe
Eickholt Eugene H.
Feldman Stephen E.
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