This invention pertains to the manufacture of paper cups and, more specifically, to sealing between bonded surfaces of such cups.
Manufacture of paper cups begins with rolls of paperboard stock. Generally, the stock is first coated with polyethylene on at least the surfaces that will be the inside cup surfaces (in the case of a cup for hot liquids) and on both inside and outside surfaces of cups intended for cold liquids. The outside of cold cups needs to be coated because condensation that forms on the outside of a cup holding a cold beverage or other liquid can soak into the paperboard of a cup not coated on the outside. The polyethylene coated stock is then printed with any printing to appear on the finished cup.
After coating and printing, the printed paperboard stock is die cut into flats that will become the cup wall. Each flat is then wound around a tapered mandrel to form the cup wall, and overlapping wall edges are bonded with heat and pressure.
Disks for bottoms are die cut from typically unprinted paperboard stock, and a disk is pressed into the smaller diameter of each cup wall and sealed in place with heat and pressure. Finally, the upper edge of the cup is rolled into a lip.
The bonds between overlapping edges of the cup wall are formed between a polyethylene coated surface and an uncoated surface in the case of a typical hot cup and between two coated surfaces in the case of a cold cup. At least a portion of the bond between the cup bottom and the cup wall are formed between surfaces coated with polyethylene in all paper cups, and the entire bottom bond in a cold cup is between two coated surfaces. These bonds are typically adequate to avoid leaks in smaller, shorter cups.
However, the liquid pressure at the bottom of a tall cup becomes significant when full, with the result that leaks sometimes develop where the cup bottom is bonded to the sidewall. Leaks may also develop where difficult shapes have been bonded.
Integrity of bonds between polyethylene-coated board stock surfaces may be improved by coating one or more of those surfaces with seal promoter prior to the application of heat and pressure to bond the two polyethylene-coated surfaces. Seal promoter has been used in the past to enhance the bond between a polyethylene-coated surface and an uncoated board stock surface, but it was unexpected that application of seal promoter would improve the bond between two polyethylene coated paperboard surfaces.
Seal promoters suitable for practicing this invention include Lupasol® PS polyethylenimine sold by BASF Corporation, 3000 Continental Drive-North, Mount Olive, N.J. 07828-1234, and other suitable polyethylenimines.
Added expense resulting from use of seal promoter has limited its use, and, notwithstanding prior use of polyethylenimine seal promoter to improve the bond between a polyethylene coated paperboard surface and an uncoated paperboard surface, the ability of seal promoter to improve the seal between two polyethylene-coated surfaces in this invention is surprising. That is, it is Applicants' belief the polyethylenimine seal promoter has molecules having a polar end and a non-polar end and further that the polar end of the polyethylenimine molecules is attracted to the uncoated paperboard cup component and that the non-polar end of the molecules is attracted and bonds to the polyethylene coating on the coated cup component. It is therefore surprising that polyethylenimine seal promoter improves the seal or bond between two polyethylene coated surfaces, since both polyethylene coated surfaces presumably have the same polarity or the same affinity for a particular non-polar end of a molecule. Whereas, the cup side wall component is subjected to post-treatment (e.g., flame or corona treatment—to oxidize the cup side wall component) after the polyethylene is applied to the uncoated paper board, and the cup bottom component is not subjected to the post-treatment step, it is thought that post treating the coated cup component may have an effect on the polarity of the poly coated cup side wall component, with the result that the polar end of the polyethylenimine seal promoter molecules experiences an increased attraction to the post-treated polyethylene coating on the coated cup component, and the non-polar end of the polyethylenimine seal promoter molecules is attracted to the non-post-treated coated bottom cup component. Accurate and complete understanding of the way in which this invention works is not necessary to practice the invention, and Applicants do not want to be bound by the forgoing or any other understanding of how their invention or any of the prior art works.
As is illustrated in
Application of seal promoter 22 to the entire top and bottom surfaces of cup bottom web 28 will result in application of seal promoter 22 to the entire cup bottom 30 that may be cut from web 28, as illustrated in
The post treatment step (e.g., treatment to change the polar surface energy) should be done to at least a portion of the polyethylene of the side wall and/or the bottom. The step of applying a post-treatment generally occurs prior to applying the seal promoter. In at least some embodiments the post treatment is an oxidizing step, and at least a portion of the polyethylene is oxidized, desirably by flame or corona treatment.
Seal promoter can be applied to a cup component that receives it by any appropriate application process, including, among others, brushing, spraying, printing and wicking. Printing can be done through the use of a dedicated plate or by simply substituting the seam sealer for one of the inks in a multi-color printer (which typically accommodate up to six colors).
In addition to its use to bond the cup wall to a cup bottom, seal promoter may be applied to at least one of two polyethylene coated surfaces to be bonded to each other on a cup side seam.
The polyethylenimine seal promoter is typically clear when dry, so it may be difficult or impossible to see after printing or otherwise coating or applying it to a cup component. Accordingly, it may be desirable to add a food coloring or other safe coloring agent or colorant in order to make the polyethylenimine seal promoter visible if that is desirable for production or other reasons.
Numerous modifications of this invention may be made in the composition, application, manufacturing process and other aspects of this invention without departing from the spirit of the description above and in the Figures or the scope of the following claims.
This application claims priority to U.S. Patent Application No. 61/376,935, filed on Aug. 25, 2010, the entirety of which is incorporated herein by reference.
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