1. Field of the Invention
The invention relates generally to secure documents and more particularly to systems and methods for providing tactile features on secure documents.
2. Description of the Related Art
Vision-impaired persons benefit from the inclusion of standardized ‘readable’ tactile features on documents and other items which enable them to determine important information regarding the item. For example, the Braille system of writing, one form of standardized tactile feature, has opened to the vision-impaired all the wealth of knowledge previously accessible only to those with unimpaired or correctable vision. Braille has also been used to enhance non-literary items such as signage, thus enabling the vision-impaired to interpret better such items and providing to them a greater degree of independence. Tactile features have also found use by those with unimpaired vision, but under circumstances where normal visual reading or inspection proves inconvenient or difficult, as when an otherwise readable item is poorly lit. For example, so-called “night writing”, a forerunner to Braille, was created by Charles Barbier de la Serre for use by Napoleon's soldiers to communicate silently and without light at night.
One innovative use of tactile writing has been the inclusion of tactile features on secure documents such as banknotes and identity documents such as passports. In International Patent Application No. WO/2000/051824 published Sep. 8, 2009 [“WO824”], the present applicant discloses a system and method for making banknotes having a tactile feature identifying a denomination of the banknote, thus enabling a vision-impaired person to determine easily the value of a handled banknote. This feature also enables a person with unimpaired vision to determine a banknote's denomination without requiring visual inspection, for example when adequate illumination is unavailable or when thumbing through the contents of a wallet or purse.
One challenge in providing readable tactile features on widely-circulated secure documents such as banknotes is that their frequent use ordinarily involves the repeated application of pressure against the tactile feature via a fingertip of a person or particularly by components of mechanical counting machines and currency dispensers. Consequently, the tactile features must be sufficiently durable if they are to remain substantially undamaged for the expected lifespan of the document. WO824 provides a solution to this problem wherein a sheet material forming the document is embossed so as to create the tactile features, and these are then reinforced in order to provide durability. Before being able to reinforce the embossments, however, it is first necessary to have a reliable and efficient means of producing the embossments.
Known methods for producing embossments in sheet materials typically involve equipment configurations which do not enable individual adjustment of each of the many embossments to be produced in the sheet material, either during an initial configuration of the equipment or during document production.
It is known in the art of document production to use numbering presses having numerous separately mountable numbering heads. The use of modular numbering heads enables greater flexibility in making adjustments as well as preparing a desired arrangement of printing members. The tolerances required for such numbering heads are greater (i.e. more lenient) than those required for the production of the embossments described above (e.g. ±30 μm), however, as such numbering heads are used typically to transfer ink from an ink cylinder to the sheet material and not to produce reliably-sized embossments.
There is thus a need for an apparatus and a method for producing in sheet materials numerous embossments which economizes time and effort to enable production at the tolerances required for durable tactile features on secure documents and which economizes time and effort to make adjustments and to change document configurations during a production run.
The above-described advantages are provided by the embodiments described hereinafter.
The embodiments described herein provide an embossing head for use in a rotary printing press. The press has upper and lower rotary cylinders, and the upper rotary cylinder has a number of annular collars mounted to it. Any desired spacing of the collars along a longitudinal axis of the upper rotary cylinder may be selected, and the spacing may be equal and regular or unequal and irregular. Each collar has one or more embossing heads mounted to it. Where a number of embossing heads are mounted on a collar, they may be spaced equally and regularly around a circumference of the collar, or they may be spaced unequally and irregularly such that the circumferential position of any particular embossing head is independent of the circumferential position of any other embossing head. Each embossing head has one or more modular embossing plate assemblies which present raised embossing features for producing embossments in sheet material. A relative height of each embossing plate assembly is independently adjustable within the embossing head, and therefore a relative height of the corresponding raised embossing features is independently adjustable when the embossing head is mounted in the press.
Accordingly, a first embodiment includes an embossing head for use in a printing press to produce embossments on a sheet material. The embossing head comprises at least one embossing plate assembly, a mounting block, and an adjustable positioning means for each embossing plate assembly. Each embossing plate assembly comprises a raised embossing feature extending vertically upwardly from an upper surface of the embossing plate assembly. The mounting block is for reversibly coupling with each embossing plate assembly to substantially constrain motion of the embossing plate assembly to a vertical direction. The mounting block comprises a mounting apparatus for rigidly and reversibly mounting the mounting block to the printing press. Each adjustable positioning means is coupled to the mounting block and contacts the corresponding embossing plate assembly for stopping vertical downward motion of the embossing plate assembly at a selectable lowermost vertical position and for maintaining coupling of the embossing plate assembly with the mounting block. The adjustable positioning means is adjustable to raise or lower the lowermost vertical position to thereby select a corresponding vertical position of an upper surface of the embossing feature relative to the mounting block.
A second embodiment includes an embossing apparatus comprising a stamp cylinder assembly and an anvil cylinder assembly disposed adjacent and opposing the stamp cylinder assembly such that respective axes of rotation of the stamp cylinder assembly and the anvil cylinder assembly are parallel. The stamp cylinder assembly comprises an annular collar and a cylindrical axle. The annular collar is mounted coaxially to the cylindrical axle. The anvil cylinder assembly comprises an anvil plate and a cylindrical drum. The anvil plate is mounted to the cylindrical drum. The embossing apparatus further comprises a plurality of the embossing heads described above in the first embodiment mounted to the collar. For each of the embossing heads, the upper surface of each embossing plate assembly faces radially outwardly from the axis of rotation of the stamp cylinder assembly. The adjustable positioning means of each embossing plate assembly is independently adjustable. The stamp cylinder assembly and the anvil cylinder assembly are respectively disposed so as to receive therebetween a sheet material and so as to form in the sheet material, for each embossing plate assembly, an embossment when the embossing plate assembly and the anvil plate sandwich the sheet material under pressure.
A third embodiment includes an apparatus for producing embossments on a sheet material. The apparatus comprises an upper rotary cylinder and an opposing lower rotary cylinder for sandwiching the sheet material to produce the embossments. The upper rotary cylinder has mounted thereto a plurality of embossing heads. The upper rotary cylinder is characterized by a longitudinal rotational axis. Each embossing head comprises a raised embossing stamp, constraining means, and adjustable positioning means. The raised embossing stamp is on an upwardly facing surface of the embossing head facing outwardly in a radial direction perpendicular to the longitudinal rotational axis when the embossing head is mounted to the upper rotary cylinder. The constraining means constrains motion of the embossing stamp along the radial direction. The adjustable positioning means stops radially downward motion of the embossing stamp at an adjustable lowermost position for determining an adjustable radial height of the raised embossing stamp. The radial height of the raised embossing stamp of each of the plurality of embossing heads is independently adjustable.
Thus, with use of the embossing heads as described herein with the collars and cylinders of a typical printing press, it becomes possible to produce in sheet material any desired pattern or arrangement of embossments. Since each individual embossing plate assembly having embossing features in each embossing head has a height which is independently adjustable, the amount of time and effort required to provide all of the desired embossments in a document with the requisite tolerances is considerably reduced. Moreover, if any particular embossment falls outside of such tolerances during a print production run, relatively little time and effort is required to adjust that embossment. In addition, the amount of time and effort required to reconfigure the press for a different pattern of embossments is considerably reduced as the embossing plate assemblies are modular and may be individually swapped or rotated to provide the different pattern. Moreover, if the very same local patterns of embossments are desired but arranged differently across the sheet material, the very same embossing heads may simply be mounted at correspondingly different positions on each collar, and each collar may be mounted at correspondingly different positions on the corresponding cylinder of the press, and thus the very same equipment may be used.
An understanding of the exemplary embodiments will be obtained from the following description, with reference to the following drawings in which:
Where appropriate, the same reference numerals are used in the drawings to indicate like features in all of the drawings.
An exemplary embodiment of the invention will now be described. While the invention is described by way of such embodiment, it is to be understood that the description is not intended to limit the invention to such embodiment, but is intended to cover alternatives, equivalents, and modifications which may be broader than the embodiment, but which are included within the scope of the appended claims.
In an effort to prevent obscuring the invention at hand, only details germane to implementing the exemplary embodiment will be described in great detail, since it is appreciated that peripheral details will be presently understood by persons skilled in the art.
As shown in the drawings, the exemplary embodiment may include duplicates or pluralities of certain parts or features. For the sake of convenience and clarity, and where identifying each and every instance would cause confusing clutter, only a single, exemplary instance may be identified using a reference character in the drawing with the understanding that, unless explicitly stated otherwise in the corresponding text or otherwise necessarily required to avoid an absurdity, such reference is intended to designate each and every respective one of the duplicates or plurality of parts or features.
In
The embossing heads 240 will now be described in detail with reference to
Turning now to
As shown in
As shown particularly in
With reference in particular to
The mounting block 244 of the embossing head 240 may be fashioned from an integral block of rigid material. As shown particularly in
As shown particularly in
As noted above, the mounting piston 245 may be provided with a central longitudinal bore 272, and the embossing plate 242 may be provided with a central opening 254 which aligns with the longitudinal bore 272 of the mounting piston 245 when the embossing plate 242 is fastened thereto as described above. The dimensions and use of these features in cooperation with the mounting block 244 of the embossing head 240 will now be described.
As particularly shown in
A height of an upper surface 259B of the head 259A of the adjustable stopping member 259 may be adjusted by advancing or retreating the stopping member 259 within the threaded bore 258 of the boss 257 in the manner known in the art, for example by rotating the stopping member 259 clockwise to advance it downwardly or counter-clockwise to retreat it upwardly. When the upper surface 259B of the head 259A of the stopping member 259 comes into contact with and abuts a shoulder 253C formed at the transition between the narrow 253A and wide 253B sections of the bore 253 of the mounting piston 245, it prevents further downward motion of the mounting piston 245 in the bore 255 of the mounting block 244 of the embossing head 240 and thus defines a lowermost position of the embossing plate assembly 243 relative to the mounting block 244 of the embossing head 240. The shoulder 253C may be chamfered so as to provide a bearing surface for flush contact with an annular portion of the upper surface 259B of the head 259A of the stopping member 259.
As described above, and as shown particularly in
As shown particularly in
Thus, when the embossing plate assembly 243 is mounted to the mounting block 244 of the embossing head 240 by insertion of the mounting piston 245 in the bore 255 of the mounting block 244, and when the restoring members 260 are mounted to the embossing plate 242 as described above, the restoring members 260 continuously urge the embossing plate assembly 243 downwardly to the lowermost position of the embossing plate assembly 243. As also described above, the adjustable stopping member 259 within the bore 255 of the mounting block 244—and particularly, the upper surface 259B of the head 259A of the adjustable stopping member 259—effectively defines the lowermost position of the embossing plate assembly 243. Since the restoring members 260 do not prevent utterly upward motion of the embossing plate assembly 243, but instead urge it to its lowermost position, the adjustable stopping member 259 may be used effectively to select the tensioned vertical position of the embossing plate assembly 243 and thus the height of the embossing plate 242, the embossing units 246 thereof, and the embossing features 250 thereon.
In this manner, adjustment (including advancement or retreat) of the adjustable stopping member 259 enables, in combination with the restoring members 260, controllable selection of an elevation of the embossing plate 242. The precision of such adjustment may be selected via a selection of the adjustable stopping member 259. For example, where the adjustable stopping members 259 is a threaded screw or bolt, then the degree of adjustment precision may be selected based on the pitch of the thread of the adjustable stopping member 259 and, correspondingly, the mating threaded bore 258. The close, sliding fit of the mounting piston 245 within the bore 255 of the mounting block 244 maintains the orientation of the plane of the embossing plate 242 relative to the longitudinal motion of the embossing plate 242. The close sliding contact of the alignment posts 271 and corresponding edges of the embossing plates 242 maintains the rotational position of each embossing plate 242 about its corresponding longitudinal axis. In order to provide easy access to the adjustable stopping member 259, and as noted above, the embossing plate 242 may include an opening 254 configured to be aligned with the narrow section 253A of the bore 272 of the mounting piston 245 when the embossing plate 242 is mounted thereto. As shown particularly in
The adjustable stopping member 259 and the restoring members 260 together constitute a precision positioning means for the embossing plate assembly 263. Persons skilled in the mechanical engineering arts will appreciate that alternative positioning means may be substituted for the particular means described above in order to enable the precise positioning of the embossing plate assembly 263 and hence the embossing plate 242 and embossing features 250 extending upwardly therefrom. For example, one or more springs may alternatively be disposed within bore 255 of the mounting block 244 and coupled to the bottom surface 256 of the bore 255 or to boss 257 on one end, and to the mounting piston 245 on another end to urge downward motion of the embossing plate assembly 263 in a similar manner. Alternatively, the two-part adjustable positioning means described above, with one part continuously urging downwardly and a second part presenting a stop to downward motion, may be replaced with a single adjustable positioning means which limits and sets both upward and downward motion. The embodiment including the adjustable stopping member 259 and the restoring members 260 described above provides the additional advantage, however, of enabling removal and replacement or rotation of the embossing plate assembly 263 without disturbing the setting of the adjustable stopping member 259 and thus the lowermost position of the embossing plate assembly 243 once reinstalled.
In order to mount the embossing head 240 to a collar 230 of the stamp cylinder assembly 210, the mounting block 244 may be provided with a clamp assembly 360 as particularly shown in
The clamp assembly 360 may comprise a stationary jaw 365 and a movable jaw 370 which, when the embossing head 240 is positioned on the collar 230 as indicated above, the stationary jaw 365 and the movable jaw 370 are disposed on opposite sides of the mounting ridge 235. The clamp assembly 360 may include adjusting members 375 such as screws or bolts for threading insertion into corresponding threaded bores (not shown) provided in the mounting block 244, with an end of each adjusting member 375 coupled rotatably to an outward-facing side of the movable jaw 370. In this fashion, the adjusting members 370 may be rotatably advanced or retreated within the threaded bores so as advance or retreat the movable jaw 370 toward or away from the stationary jaw 365, respectively. By adjusting the spacing between the stationary 365 and movable jaws 370 in this way, respective clamping surfaces 380 of the stationary 365 and movable jaws 370 may be brought into contact under pressure with facing surfaces of the mounting ridge 235, thereby rigidly clamping the clamping assembly 360, and thus the embossing head 240, to the mounting ridge 235 and collar 230.
As indicated above, and as particularly illustrated in
Thus, the apparatus 200 enables any desired disposition and arrangement of embossing heads 240 both circumferentially on the corresponding collar 230, as well as any desired arrangement of collars 230 along the longitudinal axis of the stamp cylinder 240. With respect to the arrangement of documents to be embossed in the sheet material, this enables free placement of embossments in both planar dimensions of the sheet material. Moreover, since each embossing plate 242 is modular and replaceable, any desired type and arrangement of embossing features 250 may be provided so as to locate any desired embossment anywhere on the sheet material. Such an apparatus 200 also enables independent adjustment of each individual embossing plate assembly 243, and thus the contained set of embossing features 250, around the circumference of the corresponding collar 230 independently of any other embossing features. In contrast, the embossing features presented on a finished stamping plate 110 cannot generally be adjusted along the circumference of the collar 105 without physically stretching or otherwise altering the entire stamping plate 110.
In operation, the stamp cylinder assembly 210 and anvil cylinder assembly 215 of the rotary embossing press 200 are made to rotate in opposite directions about their respective longitudinal axes while so spaced as to bring into contact or close proximity and under pressure respective embossing plates 242 and cooperating portions of the anvil sheet 260. More specifically, by selective rotation and spacing of the stamp cylinder assembly 210 and anvil cylinder assembly 215 in this way, the raised embossing units 246 included in each embossing head 240, and in particular the raised embossing features 250 included in each embossing unit 246, are brought into contact or close proximity with a corresponding portion of the anvil sheet 260 under pressure. It will be appreciated that when the press 200 is operated thusly in the absence of any sheet material, the embossing features 250 will be brought into contact under pressure with the anvil sheet 260. Conversely, if, as during normal productive operation, a sheet material is fed between the stamp cylinder assembly 210 and anvil cylinder 220, then the embossing features 250 will only come into close proximity to the anvil sheet 260, being separated therefrom by the sheet material, which by virtue of the pressure applied between each embossing feature 250 and the corresponding portion of the anvil sheet 260 will mechanically strain the sheet material at such interface so as to create an embossment corresponding generally to the shape and size of the embossing feature 250.
With reference to
As discussed above, in an embodiment where the embossing plate 242 is detachably fastened to the cylindrical mounting piston 245 by means of fasteners 270 such as screws having a flanged head 249, the dimensions of the flanged head 249 are selected such that when in operation the uppermost surface 253 of the embossing features 250 comes into contact with the anvil plate 260 or sheet material sandwiched therebetween, but an uppermost surface 252 of the flanged head 249 does not come into contact with the anvil sheet 260 or sheet material. Where the sheet material follows a rectilinear path, the flanged heads 249 are lower than the uppermost surface 253 of the embossing features 250. Where the anvil plate 260 and sheet material follow a curvilinear path, however, with the embossing features 250 contacting a convex surface of these, it may be possible for the uppermost surface 252 of the flanged head 249 to have the same height as the uppermost surface 253 of the embossing features 250 and nevertheless avoid contact between the flanged heads 249 and the anvil plate 260 or sheet material. Persons skilled in the art will recognize and be able to substitute different arrangements achieving the purpose of bringing only the embossing features 250 into contact with the anvil plate 260 or sheet material. For example, where the embossing plate 242 is integral with the mounting piston 245, fasteners 270 are not required and thus the flanged heads 249 are absent. In such case, and depending upon the geometry of the embossing plate 242 and the curvature of the anvil plate 260, the embossing units 246 may also be dispensed with, or they need not be configured to extend upwardly from the upper surface 249 of the embossing plate 242, and the embossing features 250 may be provided extending upwardly from the upper surface 249 of the embossing plate 242 while nevertheless enabling the bringing into contact of the embossing features 250 with the anvil plate 260 or sheet material without contacting any other portion of the embossing head 240.
The relative height of each embossing plate 242 is precisely adjustable by means of the adjustable stopping member 259 described above. By virtue of the durability and rigidity of the embossing head 240, including the rigidity with which the embossing plate assembly 243 is held upright and in a fixed orientation in the mounting block 244, and the rigidity with which the mounting block 244 is mountable to the mounting ridge 235 of the collar 230 mounted to the stamp cylinder 240, the spacing between the embossing features 250 of each embossing head 240 and the opposing portion of the anvil sheet 260 can be precisely and reliable selected and maintained over a large number of operations of the rotary embossing press 200. Consequently, the height of the embossments imprinted in the sheet material may be likewise selected with precision and reliability. Given that the embossing plate 242 of each embossing head 240 may be independently adjusted in height, while retaining that selected height reliably over a large number of operations of the press 200, the numerous embossments imprinted over the entirety of the sheet material may have a precisely selected uniform height which is a considerable advantage in the production of a high volume of documents intended to be generally uniform in characteristics. Moreover, each and every embossing plate assembly 243 may be independently adjusted, thus simplifying considerably the process of making periodic corrective adjustments during the embossing production cycle.
As noted above, one use for the embossing head and cooperating press described above may be for providing on secure documents tactile features which are readable by persons having impaired vision, for example using their fingertip in a manner known in the art. In one such embodiment, the document is a banknote and the tactile features identify a denomination of the banknote. As illustrated in
It will be appreciated by persons skilled in the art that the materials forming the various components of the apparatus 200 may be selected from a variety of alternatives so long as they perform their desired functions as indicated herein either expressly or by necessary implication. In addition, it will be appreciated that the apparatus 200 is suitable for producing embossments in any sheet material susceptible of embossment which may be provided in any shape, form, or composition desired.
It is to be appreciated that the section headings appearing hereinbefore do not limit the scope of the invention as described but are merely intended to organize the description for the sake of clarity.
With the foregoing exemplary embodiments having been disclosed, it will be apparent to those skilled in the art that various changes and modifications can be made to appropriately suit the needs and objectives of another application and still achieve the advantages of the invention; all such changes and modifications are intended to fall within the scope of the invention as defined by the claims that follow.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA2012/050649 | 9/19/2012 | WO | 00 | 3/28/2014 |
Number | Date | Country | |
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61541236 | Sep 2011 | US |