法律状态/事件:
期限届满 | 质押 | 权利转移
IPC分类号:
B44C3/08 | B44C3/00 | B44C1/00 | B44F7/00 | B44F1/00 | B44C1/10 | B44F1/04 | B32B15/08 | B44D5/00 | B44D5/10 | B32B15/04 | B32B7/12 | B05D5/06
国民经济行业分类号:
C2438 | C2436 | C2435 | C2434 | C2433 | C2432 | C2431 | C3076 | C3075 | C2439
当前申请(专利权)人:
BANK ONE, WISCONSIN | SECUREMARK DECAL CORP.
原始申请(专利权)人:
AMERICAN DECAL & MANUFACTURING COMPANY
当前申请(专利权)人地址:
111 E. WISCONSIN AVENUE, 53202, MILWAUKEE, WISCONSIN | 6600 WEST ARMITAGE AVE., 60707, CHICAGO, ILLINOIS
代理机构:
ARNOLD,WHITE & DURKEE
摘要:
A patterned metallized film (10) comprises a transparent or translucent polymeric film coated on one side with a thin coating of metal, with the metal coating and the polymeric film being bonded to each other. The metal coating has a multiplicity of fractures of different sizes distributed throughout the coating in a prescribed pattern (12) so that the reflection of light by the fractured metal coating produces a three-dimensional illusion of the pattern (12) when viewed through said polymeric film. The film may also include a layer of adhesive on the opposite side of the metal coating from the polymeric film, and a paper backing sheet on the opposite side of the adhesive layer from the metal coating. The fractures are preferably formed by heating the metallized film non-uniformly so that selected areas of the film expand and soften at a rate different from the rate at which other areas of said film expand and soften. The different rates of expansion and softening produce multiple fractures in the metal coating between the selected areas and the other areas, whereby the fractures replicate the desired pattern.
技术问题语段:
These techniques, however, are costly, and result in products which are usually priced about three times as high as metallized films, with our without printed images thereon.|Moreover, many of these exotic films usually have a relatively short life when used in outdoor applications where the film is subjected to continual temperature variations and other weathering conditions.|For example, gold can be vapor deposited, but gold is so expensive that it is normally simulated by forming the polymeric film from a colored polymer, or coating a transparent polymeric film with a transparent color, and then depositing aluminum on the colored film.|The resulting non-uniform heating of the laminate produces temperature differentials across the surface of the metallized film so that different areas of the film expand and soften at different rates.|That is, different areas of the film are expanded and softened at different rates and/or at different times. This non-uniform expansion and softening occurs because the plate causes those portions of the metallized film in contact with the raised areas of the plate to be heated more quickly than those portions of the film registered with the recessed areas of the plate.|This differential heating causes a multiplicity of fractures of various sizes to occur in the metal coating.
技术功效语段:
Another important object of the invention is to provide a patterned metallized film which produces a unique three-dimensional effect at a fraction of the cost of previous three-dimensional films such as holograms and embossed or contoured laminates.
It is a further important object of the invention to provide a patterned metallized film of the foregoing type which is a smooth, flat film that is easy to keep clean.
Still another object of the invention is to provide a patterned metallized film which can be manufactured at about the same cost as a plain metallized film.
A further object of the invention is to provide a patterned metallized polymeric film which is capable of replicating virtually any desired pattern and in any desired color, with unique and attractive three-dimensional effects.
Yet another object of the invention is to provide an improved decorative film of the type described above which has a long life even when used in outdoor applications where the film is subjected to continual temperature variations and other weathering conditions.
It is a still further object of the invention to provide a unique method of forming a pattern on a metallized polymeric film without the use of printing inks, so that the patterned film can be efficiently manufactured at a low cost. In this connection, a related object of the invention is to provide a method of forming a patterned metallized film which eliminates ink drying times as well as storage, disposal, flammability and toxicity problems typically associated with printing inks, thereby reducing production time and the overall cost of producing such a film.
权利要求:
I claim:
1. A patterned metallized film comprising a transparent or translucent polymeric film coated on one side with a thin coating of metal, said metal coating and said polymeric film being bonded to each other, and said metal coating having a multiplicity of fractures of different sizes distributed throughout the metal coating in a prescribed pattern so that the reflection of light by the fractured metal coating produces a three-dimensional illusion of said pattern when viewed through said polymeric film.
2. The patterned metallized film of claim 1 wherein said polymeric film is a flat film with smooth planar surfaces, and said metal coating is applied to one of said smooth planar surface with a substantially uniform thickness over the entire surface.
3. The patterned metallized film of claim 1 which includes a layer of adhesive on the opposite side of said polymeric film from said metal coating.
4. The patterned metallized film of claim 1 which includes a layer of adhesive on the opposite side of said metal coating from said polymeric film.
5. The patterned metallized film of claim 4 which includes a paper backing sheet on the opposite side of said adhesive layer from said metal coating.
6. The patterned metallized film of claim 4 wherein said layer of adhesive is selected from the group consisting of pressure-sensitive adhesives, solvent-activatable adhesives, and heat-activatable adhesives.
7. A patterned metallized film comprising a polymeric layer which has been non-uniformly expanded and softened by heating said polymeric layer in a preselected pattern, and then cooling said polymeric layer to room temperature;
a metal coating adherent to a surface of said polymeric layer;
a layer of adhesive adherent to said metal coating; and
a backing sheet, adherent to said layer of adhesive, which has been non-uniformly shrunk by heating said backing sheet in said preselected pattern,
said metal coating containing a multiplicity of fractures of different sizes formed by the combination of the non-uniform shrinkage of said backing sheet and the non-uniform expansion and softening of said polymeric layer, said fractures being distributed throughout said metal coating in accordance with said preselected pattern.
8. The patterned metallized film of claim 7 wherein said polymeric layer is transparent.
9. The patterned metallized film of claim 7 wherein said polymeric layer is translucent.
10. The patterned metallized film of claim 7 wherein said polymeric layer is transparent or translucent, capable of being expanded and softened by heat, and capable of being metallized.
11. The patterned metallized film of claim 7 wherein said layer of adhesive is selected from the group consisting of pressure-sensitive adhesives, solvent-activatable adhesives, and heat-activatable adhesives.
12. A patterned metallized film comprising
a layer of a polymer that expands and softens when heated;
a metal coating adherent to a surface of said polymeric layer;
a layer of adhesive adherent to said metal coating; and
a heat shrinkable backing sheet adherent to said layer of adhesive,
said metal coating being fractured by heating said polymeric layer, metal coating, adhesive and backing sheet in a preselected pattern so that said polymeric layer expands and softens non-uniformly and said backing sheet shrinks non-uniformly, the combination of the non-uniform shrinkage of said backing sheet and the non-uniform expansion and softening of said polymeric layer fracturing said metal coating so that the resulting fractures are distributed throughout said metal coating in accordance with said preselected pattern.
13. A method of forming a patterned metallized film, said method comprising the steps of
coating a transparent or translucent polymeric film on one side with a thin coating of reflective metal, said metal coating and said polymeric film being adherent to each other, and said polymeric film being expandable and softenable by heat, and
heating the metal-coated polymeric film in a prescribed pattern so that portions of the metal-coated polymeric film are heated at a faster rate than other portions, said portions that are heated at a faster rate defining said prescribed pattern.
14. The method of claim 13 wherein said heating of said metal-coated polymeric film produces a multiplicity of fractures of different sizes distributed throughout the metal coating in a prescribed pattern so that the reflection of light by the fractured metal coating produces a three-dimensional illusion of said pattern when viewed through said polymeric film.
15. A method of producing a patterned metallized film, said method comprising the steps of
metallizing a transparent or translucent polymeric film on one side with a thin coating of reflective metal, and
producing a preselected pattern in said metal coating by selectively fracturing said metal coating by heating selected areas of said metallized film at different rates to produce a multiplicity of fractures distributed throughout said metal coating in accordance with said pattern.
16. The method of claim 15 wherein said selected area which are heated define said pattern so that the resulting fractures are distributed according to said pattern.
17. The method of claim 15 wherein the heating of said film causes said selected areas of said film to expand and soften at a rate different from the rate at which other areas of said film expand and soften, said different rates of expansion and softening producing multiple fractures in said metal coating between said selected areas and said other areas, whereby said fractures replicate said pattern.
18. The method of claim 15 which includes the steps of applying a layer of adhesive to the opposite side of said polymeric film from said metal coating, and covering said layer of adhesive with a release-treated backing sheet.
19. The method of claim 15, wherein said metal coating is selectively fractured by passing said metallized film through an apparatus comprising
a heated roll adapted to rotate in a first angular direction; and
a patterned roll disposed radially adjacent said heated roll and adapted to counter-rotate with respect to said heated roll in a second angular direction, said rolls forming a nip therebetween for accepting said metallized film and being disposed to apply a predetermined amount of pressure to said metallized film as it passes through the nip between said rolls.
20. The method of claim 15 which includes the steps of applying a layer of adhesive to said layer of metal and covering said layer of adhesive with a release-treated backing sheet.
21. The method of claim 20 wherein said backing sheet shrinks when heated.
22. The method of claim 21 wherein said metal coating is selectively fractured by heating said polymeric film after metallizing said film and after applying said layer of adhesive and said backing sheet.
23. The method of claim 22 wherein the heating of said film causes said selected areas of said film to expand and soften at a rate different from the rate at which other areas of said film expand and soften, and causes like selected areas of said backing sheet to shrink at a rate different from the rate at which other areas of said backing sheet shrink, said different rates of expansion, softening and shrinkage producing multiple fractures in said metal coating between said selected areas and said other areas, whereby said fractures replicate said pattern.