Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor
Reexamination Certificate
2000-03-20
2002-04-23
Gray, Linda (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Methods
Surface bonding and/or assembly therefor
C156S211000, C156S235000, C156S237000, C156S238000, C156S240000, C156S256000, C156S293000, C156S278000, C040S327000, C473S052000, C473S152000, C473S351000
Reexamination Certificate
active
06375783
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a process involving the heat-induced transfer of sublimable dyestuff images and more specifically to applying such an image to the curved surface of a billiard ball.
Various surfaces may be decorated by a sublimatic transfer printing process. Such printing processes involve, as a first step, full color lithographic printing on paper using so called “dispersal” dyes having the property of subliming or vaporizing to a gas when heated. A second step involves transferring the printed image under heat and, usually,pressure in a transfer press to a substrate form of material that is receptive to the sublimable ink. The inks are capable of being printed onto the paper by lithographic printing methods using etched gravure press cylinders and standard lithographic paper, so that one can obtain the high quality, four color reproduction achievable by these techniques.
Previously, sublimatic transfer processes have been found to be particularly useful in printing full color reproductions onto polyester fabrics. Excellent color quality and efficient transfer was possible with such fabrics, but at that time poor results were usually obtained on non-textile items such as wood, particle board, plastic sheets, leather, rubber and other organic or natural materials. Also at that time no transfer at all was feasible on glass fabric, sheet glass, metal surfaces, marble or other inorganic materials. The inventor in his U.S. Pat. No. 4,395,263 provided a method for sublimatic ink transfer to any of the foregoing substrates, whether organic or inorganic.
In attempting to follow the teachings of U.S. Pat. No. 4,395,263 in heat transfer printing lithographic art images of sublimable dyestuff onto the curved surface of billiard balls, certain difficulties were encountered.
The attempt to print heart shaped or spade shaped lithographic printed art work much more than ¾ inch to 1 inch in diameter on standard spherical billiard balls resulted in wrinkling of the lithopaper during the hot press transfer operation and an unsatisfactory jagged edge on the transferred images. The lithoprinter could offer no help and no flexible or elastic paper stock was available to solve the wrinkle problem.
It is an object of the invention to provide a novel method of transferring a sublimable dyestuff art image onto a curved outer surface of an object.
It is also an object of the invention to provide a novel method of transferring a sublimable dyestuff art image onto the curved outer surface of a billiard ball.
It is another object of the invention to provide a novel method of transferring a sublimable dyestuff art image onto the curved outer surface of a billiard ball without the transferred image having an unsatisfactory jagged edge produced by the wrinkling of the lithopaper during the hot press operation.
SUMMARY OF THE INVENTION
The invention relates to a method of transferring a sublimable dyestuff art image onto the curved outer surface of objects such as billiard balls, golf balls, tennis balls, bowling balls, telephones, toys, etc. One preferred embodiment would relate to the heat transfer printing of a sublimable dyestuff art image onto a billiard ball.
The invention was developed as a result of the development of the Poker Pool game that was conceived by George Emery. The game requires that the billiard balls have images on them corresponding to the four suits of cards in a deck of playing cards. Therefore, images of hearts and spades had to be applied to the curved outer surface of the billiard balls.
In working to overcome the wrinkling effect during the heat transfer process onto curved surfaces, it was discovered that this problem could be overcome. It was determined that by steel rule dye cutting the heart or spade shaped art work just slightly larger than the printed image and providing cuts extending in from the outside edge about {fraction (1/16)}-¼ inch, the segment between cuts overlap rather than wrinkle during the heat transfer printing process. Because of the subliming nature of the sublistatic printing process, a perfect smooth blending of the red heart or the black spade color results with no visible evidence detectable from the cut in the paper and no jagged edges are formed from wrinkling of the paper.
Another problem that had to be overcome was to provide a proper surface on the billiard balls for transferring the dyestuff by sublimation from the lithographic printed paper carrier. In the special case of billiard balls, many different colors including black are used. In order to print red hearts, black spades, and multi-colored art work on these various colored surfaces, it is necessary that the plug have a white background. This was accomplished by initially molding a spherically shaped polyester billiard ball with at least one recess having the predetermined configuration of a heart or a spade formed in its outer surface. This billiard ball would be made of a material having a color that is not white. The next step is that of inserting or forming a plug made of polyester resin material into the recess and the plug would have either the respective heart or spade configuration. As a further cost saving modification and simplification of the process, the white plugs may all be made in the heart configuration because the black tail of the lithographic art image of the black spade will print black on any colored ball and does not require a white plug background as do all the other colors in the art image. The plug would then be heat cured in the recess thereby providing the billiard with a substantially spherical outer surface. The plug would be of an opaque white material. The surface of the plug would then be coated with a clear alkyd resin and melamine formaldehyde resin.
In a separate operation, the lithographic art images of red hearts and black spades would be formed on an auxiliary carrier web. The lithographic art image would be made of sublimable dyestuff. The outer edge of the heart or spade shaped lithographic images would have inwardly extending cuts around the outside edge of the perimeter of the lithographic art image. These lithographic art images would then be applied to the outer surface of the plug and the operation of hot press heat transfer printing of the lithographic art image would occur thereby printing the sublimable dyestuff onto the curved outer surface of the plug.
Although this labor intensive process produces the most excellent results, a further modification and simplification of the process can be produced by the production of/or insertion of a heart or spade shaped titanium dioxide pigmented styrene polyester plug in the colored billiard ball in place of the support stratum of polyester resin previously described. The surface of the polyester resin plug may then be coated with the clear alkyd resin and melamine formaldehyde resin and heat cured to provide the laminate for transferring dyestuff by sublimation from the lithographic printed paper carrier.
A further modification and simplification of the process can be accomplished by changing the mixture of the titanium dioxide white pigmentation in the styrene polyester resin plug. This would be produced by reducing the amount of pigment to 8 parts plus or minus 6 per 100 parts of resin to provide a sufficient degree of translucency so that the top most clear layer alkyd resin and melamine formaldehyde resin may, as an option, be eliminated. Although this simplified process cannot produce the color intensity and depth of color of a photographic print as does the preferred laminated combination of a top transparent layer and a highly pigmented white base layer, the resulting color tones are acceptable and the simplification has the advantage of economy.
Another problem that had to be overcome relates to the problem of accurate registration of a red heart shaped print or a black spade shaped print on the white plugs in the various colored balls. If the red heart shaped print were the exact shape and size of the white heart shaped plug and absolutely p
Gray Linda
Logan, II Charles C
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