Packaging material and method

Stock material or miscellaneous articles – Structurally defined web or sheet – Discontinuous or differential coating – impregnation or bond

Reexamination Certificate

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Details

C428S204000, C428S300700

Reexamination Certificate

active

06680103

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to packaging material used to form packages for products and, more specifically, to packaging material having the ability to mask stains caused by the product being packaged.
BACKGROUND OF THE INVENTION
Products, and in particular food products, are commonly packaged in paperboard boxes or cartons. Examples of such paperboard boxes or cartons include cereal boxes, milk cartons, butter and margarine boxes and beer and soft drink secondary packaging (e.g., paperboard cartons enclosing a plurality of beer or softdrink cans or bottles). For explanatory purposes, the simple term “cartons” may be used throughout this description to refer to the type of paperboard boxes or cartons described above.
The process of forming this type of carton typically begins by printing a continuous web of paperboard material with the particular graphics desired for the package in question. The paperboard material may, for example, have a thickness of between about 0.001 and about 0.040 inch. Before printing, the paperboard material may, for example, be of a brown or grey color. Alternatively, the paperboard material may be bleached or coated so as to exhibit a generally white color. A typical web of paperboard material may, for example, have a length of between about 10,000 and about 30,000 feet and may be wound into a roll format.
To print a web of material, the web of material may be mounted on a reel at one end of a web printing machine. Such a web printing machine typically includes various printing stations, each of the printing stations being adapted to apply a different pattern and color of ink to the web. Each printing station may employ an ink application method such as a gravure or a flexographic method, as is well-known in the web printing industry. As can be appreciated, this type of printing machine will typically have a number of active printing stations equal to the number of graphics colors to be applied to the web. A drying station may also be located after each of the printing stations such that each color pattern will be dried before that portion of the web enters the next printing station.
The end of the web of material may then be threaded through the web printing machine and thereafter rewound onto an output reel at the opposite end of the printing machine. In this manner, the entire web may be fed through the printing machine. Within the printing machine, the graphics for the desired package are repeatedly printed along the web.
After printing is completed, the printed web is removed from the output reel of the printing machine and transferred to a cutting and scoring machine. The cutting and scoring machine cuts the web into a plurality of carton blanks, each of which is registered with the graphics printed in the printing machine. Examples of cutting and scoring machines are generally disclosed in U.S. Pat. No. 4,781,317 and U.S. Pat. No. 5,757,930, both of which are hereby incorporated by reference for all that is disclosed therein. Depending on the design of the particular carton blank, the blank may also be folded or partially folded and glued after completion of the cutting and scoring operation.
The carton blanks may then be shipped to the product filling location. Here, the carton blanks are erected the desired product inserted. Any necessary final gluing, depending on the type of carton, may also be accomplished at this time. Examples of carton blanks and of cartons formed therefrom are disclosed in U.S. Pat. No. 5,092,516 and U.S. Pat. No. 5,632,404, both of which are hereby incorporated by reference for all that is disclosed therein.
A problem arises when paperboard cartons are used to package products which contain fluids that are capable of permeating the paperboard. Examples of such problematic products include those which are oily or greasy, e.g., products such as butter or margarine. Specifically, oil or grease from such products can penetrate the paperboard of the carton and appear as a stain on the outside of the carton. Such staining detracts from the appearance of the carton and may interfere with the graphics printed thereon. One solution to this problem is to use a modified paperboard material. Such modified paperboard materials are generally treated with a chemical which makes the paperboard material impermeable to oil and grease. Although this type of material works well to prevent oil and grease migration, it is relatively expensive.
Another solution to the problem of oil and grease migration is proposed in U.S. Pat. No. 4,521,492, which is hereby incorporated by reference for all that is disclosed therein. This solution involves coating the paperboard material with a non-leafing metallic ink and a highly pigmented white ink prior to printing graphics onto the paperboard material. The use of metallic inks, however, is disadvantageous for several reasons. At the outset, metallic inks are relatively expensive and their use, thus, prohibitively adds cost to the package. Metallic inks also have a detrimental effect on printability; specifically, it is difficult to obtain good adhesion between a metallic ink layer and a subsequently applied ink layer. Finally, metallic inks are difficult to apply, often, for example, causing plugging of printing machine rollers.
Thus, it would be generally desirable to provide a solution to the problem of grease and oil migration staining in cartons that overcomes the problems associated with prior proposed solutions.
SUMMARY OF THE INVENTION
The present invention is generally directed to an improved packaging material. The packaging material may include a substrate which is normally susceptible to permeation by oil or grease. A non-white non-metallic colorant layer may be applied to the outer surface of the substrate. The specific color of the colorant layer may be chosen to closely resemble or to overpower the appearance of a stain on the substrate caused by oil or grease permeating through the substrate. In this manner, the colorant layer serves to mask the stain and, thus, to prevent the stain from appearing on the finished package.
A second non-metallic colorant layer may be provided over the first colorant layer to provide a uniform background of a desired color, e.g., white. Graphics, e.g, text and/or images, may then be applied to the second colorant layer in a conventional manner. Alternatively, the second colorant layer may be applied only in areas where no graphics are to be applied or may be applied in both areas where no graphics are to be applied and in areas where graphics of light color and/or low opacity are to be applied. As a further alternative, the second colorant layer may be omitted entirely and the color of the first colorant layer may be used as the background color for the package.
It has been found that, in many cases, oil or grease cause a grey-colored stain on a substrate. Accordingly, a grey colored first colorant layer may be used to mask such a stain. In the case where the colorant is an ink, such a grey colorant may be formed from a white ink having a black pigment mixed therein.
The colorant layers may be applied in any conventional manner. In the case where the colorant is an ink, for example, the ink may be applied in a conventional web printing machine. The first printing station of the web printing machine may be modified to apply a substantially continuous layer of ink, rather than graphics. Where a second layer is also to be provided, the second station of the printing machine may also be modified to apply a substantially continuous layer of ink. The remaining stations in the printing machine may operate in a conventional manner.


REFERENCES:
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patent: 3463659 (1969-08-01), Dragoon et al.
patent: 4233195 (1980-11-01), Mills
patent: 4521492 (1985-06-01), Allen
patent: 4757930 (1988-07-01), Ditto
patent: 4781317 (1988-11-01), Ditto
patent: 5091236 (1992-02-01), Keller et al.
patent: 5092516 (1992-03-01), Kastanek
patent: 5799978 (1998-09-01), Grinnell
patent: 5837383 (1998-11-01), We

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