Microembosser for faster production of holographic labels
First Claim
Patent Images
1. A rotary microembossor comprising:
- a base roller having a rotational axis;
a shimroller including a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for mounting an embossing shim;
a temperature sensor at least partially inside the shimroller for facilitating temperature control of the shimroller;
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attached to the cylindrical space and a portion for overlying leading and trailing edges of an embossing shim mounted to the cylindrical surface; and
means responsive to an operating status of the microembosser for automatically changing relative position of the rotational axis of the base roller and the rotational axis of the shimroller.
1 Assignment
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Accused Products
Abstract
Holographic labels are used on a variety of articles of manufacture for security, authenticity, or aesthetic appeal. Manufacturing a holographic label or sticker typically entails microembossing, that is, imprinting or cutting, microscopic grooves into a clear plastic sheet with a shiny aluminum coating. The grooves diffract light and form a three-dimensional image, such as the dove commonly found on Visa™ brand credit cards. Unfortunately, conventional microembossing machines, or microembossers, suffer from a number of problems. For example, these microembossers include two large base rollers that move back and forth in sequence to contact a shimroller. The clumsy back and forth movement not only limits how fast embossing can occur but also causes misalignment of embossed images. To address this and other problems, the inventors devised an exemplary microembosser which includes a single base roller and a shimroller which one or more unique features. Among these features are magnetic members that assist in holding a shim; an internal temperature sensor that aids control of shimroller temperature; and one or more shimcollars or shimclamps that spans across a gap between the leading and trailing edges of a shim. Other features of the exemplary embosser include an automatic mechanism for separating the base roller and shimroller during shutdown.
67 Citations
29 Claims
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1. A rotary microembossor comprising:
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a base roller having a rotational axis;
a shimroller including a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for mounting an embossing shim;
a temperature sensor at least partially inside the shimroller for facilitating temperature control of the shimroller;
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attached to the cylindrical space and a portion for overlying leading and trailing edges of an embossing shim mounted to the cylindrical surface; and
means responsive to an operating status of the microembosser for automatically changing relative position of the rotational axis of the base roller and the rotational axis of the shimroller. - View Dependent Claims (2, 3, 4, 5)
first clamping means for attaching a first portion of the shim to the cylindrical surface; - and
second clamping means for attaching a second portion of the shim to the cylindrical surface, the second means being adjustable axially relative the first clamping means.
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6. A rotary microembosser for receiving a shim and embossing diffraction patterns on a continuous web, the microembosser comprising:
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at least one base roller having a rotational axis;
a shimroller having a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for mounting a shim, the surface having a recess;
first clamping means for attaching a first portion of the shim the cylindrical surface, wherein the first clamping means comprises a first block bolted or screwed to the cylindrical surface; and
second clamping means for attaching a second portion of the shim to the cylindrical surface, the second means being adjustable axially relative the first clamping means, wherein the second clamping means comprises a recess in the cylindrical surface, a axial adjustment block located in the recess, and a second block bolted or screwed to the axial adjustment block.
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7. A rotary microembosser for receiving a microembossing shim having leading and trailing edges and embossing diffraction patterns on a continuous web, the microembosser comprising:
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a shimroller having a rotational axis and a cylindrical surface for supporting the microembossing shim;
means, overlying the leading and trailing edges, for holding the microembossing shim adjacent the cylindrical surface; and
a temperature sensor located at least partially inside the shimroller. - View Dependent Claims (8, 9)
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10. A rotary microembosser comprising:
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a base roller having a rotational axis;
a shimroller having a rotational axis substantially parallel to the base roller, a cylindrical surface which defines an interior and has a circumference, and a temperature sensor within the interior;
a pair of shimcollars for holding a microembossing shim adjacent the cylindrical surface, each shimcollar having an arcuate portion overlying leading and trailing edges of the microembossing shim; and
means responsive to an operating status of the microembosser for automatically changing relative position of the rotational axis of the base roller and the rotational axis of the shimroller. - View Dependent Claims (11, 12)
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13. A rotary microembosser for receiving a shim and embossing diffraction patterns on a continuous web, the microembosser comprising:
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at least one base roller having a rotational axis; and
at least one shimroller having a rotational axis substantially parallel to the rotational axis of the base roller and a surface for mounting a shim;
one or more shimcollars for holding at least a portion of a shim against or near the surface of the shimroller, each shimcollar having a portion which fastens or secures to the surface and a portion which spans a gap between two substantially parallel edges of the shim.
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14. A shimroller comprising:
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a cylindrical surface for mounting a stamping shim; and
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attachable to the cylindrical surface and a portion for spanning a gap between leading and trailing edges of a stamping shim mounted to the cylindrical surface.
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15. A shimroller comprising:
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a cylindrical surface for mounting a stamping shim, the cylindrical surface defining an interior of the shimroller;
a temperature sensor at least partially within the interior of the shimroller;
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attachable to the cylindrical surface and a portion for spanning a gap between leading and trailing edges of a stamping shim mounted to the cylindrical surface.
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16. A method of producing an article of manufacture having at least one microembossed portion, the method comprising:
installing a microembossing shim having a reflective or diffractive pattern and a leading and a trailing edge onto a cylindrical surface of a shimroller, using at least two shim-holding devices each having a portion attached to the cylindrical surface and a portion overlying the leading and trailing edges of the microembossing shim.
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17. A method of using an embosser having a first shimroller, the method comprising:
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removing the first shimroller; and
installing a second shimroller in place of the first shimroller, the second shimroller comprising;
a cylindrical surface for mounting a stamping shim; and
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attachable to the cylindrical surface and a portion for spanning a gap between leading and trailing edges of a stamping shim mounted to the cylindrical surface. - View Dependent Claims (18, 19, 20)
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21. A rotary microembosser comprising:
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a base roller having a rotational axis;
a shimroller including a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for mounting an embossing shim;
a temperature sensor at least partially inside the shimroller for facilitating temperature control of the shimroller;
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attached to the cylindrical surface and a portion for spanning a gap between leading and trailing edges of an embossing shim mounted to the cylindrical surface; and
means responsive to an operating status of the microembosser for automatically changing relative position of the rotational axis of the base roller and the rotational axis of the shimroller, wherein the cylindrical surface has a circumference, and wherein at least one of the shimcollars or shimclamps defines an arc having a length at least three fourths of the circumference of the cylindrical surface, with at least one end of the arc fastened to the cylindrical surface.
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22. A rotary microembosser comprising:
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a base roller having a rotational axis;
a shimroller including a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for mounting an embossing shim;
a temperature sensor at least partially inside the shimroller for facilitating temperature control of the shimroller;
one or more shimcollars or shimclamps fastened to the shimroller, each having a portion attached to the cylindrical surface and a portion for spanning a gap between leading and trailing edges of an embossing shim mounted to the cylindrical surface; and
means responsive to an operating status of the microembosser for automatically changing relative position of the rotational axis of the base roller and the rotational axis of the shimmoller, wherein the cylindrical surface has a circumference, and wherein at least one of the shimcollars or shimclamps defines an arc having a length less than one fourth of the circumference of the cylindrical surface, with at least one end of the arc fastened to the cylindrical surface.
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23. A rotary microembosser for receiving a shim and embossing diffraction patterns an a continuous web, the microembosser comprising:
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at least one base roller having a rotational axis; and
a shimroller having a rotational axis substantially parallel to the rotational axis of the base roller and a cylindrical surface for confronting a major surface of an embossing shim having leading and trailing edges and a diffraction pattern, with the cylindrical surface including at least one axially oriented recess;
a structure mounted in the one axially oriented recess;
first and second shimcollars for overlying respective first and second portions of the leading and trailing edges, with the first and second shimcollars defining respective arcs and at least one of the first and second shimcollars having an end portion fastened to the structure mounted in the axially oriented recess. - View Dependent Claims (24, 25, 26, 27, 28, 29)
wherein the base roller has a diameter that is no more than about 102 millimeters; and
wherein the base roller comprises a layer of Torlon™
4501 polymide or a polyetheretor ketone.
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Specification
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Current AssigneeHolographic Security Concepts Incorporated
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Original AssigneeHolographic Label Converting, Inc.
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InventorsBohn, Bill L., LaBelle, Scott R.
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Primary Examiner(s)COLILLA, DANIEL JAMES
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Application NumberUS09/887,480Time in Patent Office977 DaysField of Search101/23, 101/22, 101/28, 101/31, 101/32, 156/582, 156/209, 430/1US Class Current101/23CPC Class CodesB29C 2059/023 MicroembossingB29C 59/04 using rollers or endless beltsB31F 1/07 Embossing , i.e. producing ...B31F 2201/0715 The tools being rollersB31F 2201/0738 Cross sectional profile of ...B31F 2201/0779 ControlG03H 1/028 by embossingG03H 2250/40 Printed information overlap...
