Method for forming multi-layer laminates with microstructures
First Claim
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1. A method of continuously forming a multi-layer laminate of thermoplastic sheeting with one surface thereof having a precision embossed pattern of microstructures thereon, the method being performed with the use of a generally cylindrical endless embossing tool having an inner surface and an outer surface, the outer surface having a precision pattern which is the reverse of the precision pattern to be formed on said one surface of said sheeting, and wherein the method includes the steps of:
- a) continuously moving the endless embossing tool along a closed course through a heating station, where the embossing tool is heated through its inner surface to a predetermined temperature and then to a cooling station where the embossing tool is cooled below said predetermined temperature;
b) continuously feeding onto the embossing tool as it passes through a part of said heating station a superimposed first resinous film and first carrier film wherein said first resinous film has a glass transition temperature at least as low as said predetermined temperature and said first carrier film has a glass transition temperature higher than that of said first resinous film, said first resinous film having a first surface in direct contact with the outer precision patterned surface of said embossing tool, and a second surface in contact with a surface of said first carrier film;
c) continuously pressing said superimposed first resinous film and first carrier film against said embossing tool at at least one pressure point adjacent a first position at said heating station until said first surface of said first resinous film conforms to said pattern of said embossing tool;
d) continuously removing said first carrier film from superimposed relation with respect to said first resinous film after said first surface of the first resinous film is conformed to the pattern of said embossing tool;
e) continuously superimposing a second resinous film and second carrier film onto said second surface of said first resinous film with a surface of said second resinous film in contact with said second surface of said first resinous film, and pressing said first and second resinous films and second carrier film against said embossing tool at at least one pressure point adjacent a second position of said heating station until said first and second resinous films become bonded together to form a laminate;
f) continuously passing said embossing tool and laminate through said cooling station where the temperature of said embossing tool and laminate is lowered below said predetermined temperature; and
g) continuously stripping said laminate from said embossing tool.
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Abstract
A method of continuously forming a multi-layer laminate of thermoplastic polymeric films wherein one surface thereof has a precision pattern of embossed elements thereon and wherein the thermoplastic polymeric films can be dissimilar. A generally cylindrical seamless metal embossing tool with an outer surface having the reverse of the pattern to be formed on the surface of the sheeting is used. The laminate is formed by continuously feeding onto a heated embossing tool a superimposed first resinous film and a first carrier film wherein the first resinous film is pressed against the embossing tool and is heated above its glass transition temperature thereby becoming embossed with the pattern, while the first carrier film remains at a temperature below its glass transition temperature. The first carrier film is then removed, and a second resinous film and second carrier film are superimposed on the unembossed surface of the first resinous film and are heated such that the two resinous films become bonded together. The resulting laminate is then cooled and is stripped from the embossing tool. If the laminate is to be used for retroreflective sheeting, then, because the second resinous film is applied after the embossing step is complete, a smooth interface can be formed between the two resinous films. This results in a sheeting of exceptional retroreflective capability, even if the first and second resinous films are dissimilar thermoplastic materials.
65 Citations
47 Claims
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1. A method of continuously forming a multi-layer laminate of thermoplastic sheeting with one surface thereof having a precision embossed pattern of microstructures thereon, the method being performed with the use of a generally cylindrical endless embossing tool having an inner surface and an outer surface, the outer surface having a precision pattern which is the reverse of the precision pattern to be formed on said one surface of said sheeting, and wherein the method includes the steps of:
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a) continuously moving the endless embossing tool along a closed course through a heating station, where the embossing tool is heated through its inner surface to a predetermined temperature and then to a cooling station where the embossing tool is cooled below said predetermined temperature;
b) continuously feeding onto the embossing tool as it passes through a part of said heating station a superimposed first resinous film and first carrier film wherein said first resinous film has a glass transition temperature at least as low as said predetermined temperature and said first carrier film has a glass transition temperature higher than that of said first resinous film, said first resinous film having a first surface in direct contact with the outer precision patterned surface of said embossing tool, and a second surface in contact with a surface of said first carrier film;
c) continuously pressing said superimposed first resinous film and first carrier film against said embossing tool at at least one pressure point adjacent a first position at said heating station until said first surface of said first resinous film conforms to said pattern of said embossing tool;
d) continuously removing said first carrier film from superimposed relation with respect to said first resinous film after said first surface of the first resinous film is conformed to the pattern of said embossing tool;
e) continuously superimposing a second resinous film and second carrier film onto said second surface of said first resinous film with a surface of said second resinous film in contact with said second surface of said first resinous film, and pressing said first and second resinous films and second carrier film against said embossing tool at at least one pressure point adjacent a second position of said heating station until said first and second resinous films become bonded together to form a laminate;
f) continuously passing said embossing tool and laminate through said cooling station where the temperature of said embossing tool and laminate is lowered below said predetermined temperature; and
g) continuously stripping said laminate from said embossing tool. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. Apparatus for forming a multi-layer laminate of thermoplastic sheeting with one surface thereof having a precision embossed pattern of microstructures thereon, comprising:
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(a) embossing means including a continuous embossing tool having an inner surface and an outer surface, said outer surface having a precision embossing pattern thereon;
(b) means for continuously moving said embossing tool along a closed course;
(c) means for introducing superimposed first resinous film and first carrier film onto said embossing tool with a first surface of said first resinous film in direct contact with said embossing pattern;
(d) means for heating a portion of said embossing tool to raise the temperature of said portion of said embossing tool to a pre-determined temperature above the glass transition temperature of said first resinous film and below the glass transition temperature of said first carrier film while said portion of said embossing tool is in a first portion of its course to thereby emboss said pattern into said first resinous film;
(e) means for removing said first carrier film from superimposed relation with said first resinous film, said means comprising a wind-up roll for said first carrier film;
(f) means for introducing superimposed second resinous film and second carrier film onto said first resinous film after said first carrier film has been removed and while said first resinous film is at or above said pre-determined temperature, with a surface of said second resinous film in direct contact with a second surface of said first resinous film to thereby bond together said first and second resinous films without heating said second carrier film to its glass transition temperature;
(g) means for cooling said bonded resinous films to thereby rigidify the embossing pattern of said first resinous film; and
(h) means for stripping said bonded resinous films from said embossing tool after cooling. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40)
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41. A method of continuously forming a multi-layer laminate of thermoplastic sheeting with one surface thereof having a precision embossed pattern of microstructures thereon, the method being performed with the use of an embossing tool having an inner surface and an outer surface, the outer surface having a precision pattern which is the reverse of the precision pattern to be formed on said one surface of said sheeting, and wherein the method includes the steps of:
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a) moving the embossing tool through a heating station, where the embossing tool is heated to a predetermined temperature;
b) feeding onto the embossing tool as it passes through a part of said heating station a superimposed first resinous film and first carrier film wherein said first resinous film has a glass transition temperature at least as low as said predetermined temperature and said first carrier film has a glass transition temperature higher than that of said first resinous film, said first resinous film having a first surface in direct contact with the outer precision patterned surface of said embossing tool, and a second surface in contact with a surface of said first carrier film;
c) pressing said superimposed first resinous film and first carrier film against said embossing tool at at least one pressure point adjacent a first position at said heating station until said first surface of said first resinous film conforms to said pattern of said embossing tool;
d) removing said first carrier film from superimposed relation with respect to said first resinous film after said first surface of the first resinous film is conformed to the pattern of said embossing tool;
e) superimposing a second resinous film and second carrier film onto said second surface of said first resinous film with a surface of said second resinous film in contact with said second surface of said first resinous film, and pressing said first and second resinous films and second carrier film against said embossing tool at at least one pressure point adjacent a second position of said heating station until said first and second resinous films become bonded together to form a laminate;
f) stripping said laminate from said embossing tool. - View Dependent Claims (42, 43, 44, 45, 46, 47)
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Specification
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Current AssigneeAvery Dennison Corporation
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Original AssigneeAvery Dennison Corporation
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InventorsKaufman, Alan R., Buoni, Drew J.
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Primary Examiner(s)MAYES, MELVIN C
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Application NumberUS09/489,789Time in Patent Office820 DaysField of Search156/209, 156/219, 156/220, 156/247, 156/249, 156/289, 156/311, 156/324, 156/498, 156/537, 156/543, 156/553, 156/555US Class Current156/209CPC Class CodesB29D 11/00605 Production of reflex reflec...B32B 2037/268 Release layersB32B 2307/418 RefractiveB32B 37/26 with at least one layer whi...B32B 38/06 EmbossingY10T 156/1023 Surface deformation only [e...Y10T 156/1712 Indefinite or running lengt...Y10T 156/1741 Progressive continuous bond...
