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A method and apparatus for printing and scoring media in a printing system. In one embodiment a scoring pattern is based upon input by the user on a graphical user interface. The system typically incorporates a controller that drives a scoring printer having a scoring head with one or more pins or w

A method and apparatus for printing and scoring media in a printing system. In one embodiment a scoring pattern is based upon input by the user on a graphical user interface. The system typically incorporates a controller that drives a scoring printer having a scoring head with one or more pins or wires that impact the surface of media and weaken the media. By creating a predetermined pattern of impacts, the media is weakened along a region or line for subsequent separation.

대표청구항 ▼

1. A moving-head printer system for printing and scoring media comprising:a printhead; an impact scoring head comprising at least one selectively activated driven perforating pin; a moving carriage upon which are mounted the printhead and the impact scoring head, the carriage configured and construc

1. A moving-head printer system for printing and scoring media comprising:a printhead; an impact scoring head comprising at least one selectively activated driven perforating pin; a moving carriage upon which are mounted the printhead and the impact scoring head, the carriage configured and constructed to move the printhead and impact scoring head across a surface of the media; a printing actuator that activates the printhead to selectively apply an image element to the media as the print head passes over the surface; and a scoring actuator that activates the scoring head to selectively direct the at least one selectively activated driven perforating pin against the media in a predetermined pattern as the scoring head is passed over the surface; wherein the impact scoring head includes a scoring actuator that directs the at least one selectively activated driven perforating pin recipricatorily at least partially into the printing surface a plurality of times forming a series of perforations, and the at least one selectively activated driven perforating pin includes an end sized and shaped to weaken the media where such contact occurs. 2. A printer system as in claim 1 wherein the printhead is of a type selected from the following group: inkjet, thermal inkjet, piezo inkjet, thermal dye, and impact dot matrix.3. A printer system as in claim 1 wherein the at least one selectively activated driven perforating pin includes one or more selectively activated perforating scoring pins having a shape selected from the following group: single point, multiple point, tapered point, notched points, flat edge, and tapered edge.4. A printer system as in claim 1 wherein the predetermined pattern is selected from the following group: horizontal lines, vertical lines, diagonal lines, curved lines, and double lines.5. The system of claim 1 including media support including an elastomeric surface configured to support the surface of the media opposite the at least one selectively activated perforating pin.6. The system of claim 1 including a media support having a self-healing mat material configured to support the surface of the media opposite the at least one selectively activated perforating pin.7. The system of claim 1, wherein the scoring actuator includes an electromagnetic actuator.8. The system of claim 1, wherein the scoring actuator comprises one of an electrostatic or a piezo electric actuator.9. The system of claim 1, wherein the at least one selectively activated perforating pin reciprocates between a first extended position at least partially into the printing surface and a second retracted position and wherein at least one pin is resiliently biased towards one of the first position and the second position.10. The system of claim 1 including a lubricant contacting the at least one selectively activated driven perforating pin.11. The system of claim 1, wherein the scoring head includes a reservoir containing a lubricant through which the at least one selectively activated driven perforating pin extends.12. The system of claim 1, wherein the at least one selectively activated driven perforating pin is coupled to at least one lever which pivots less than 360 degrees about a pivot axis.13. The system of claim 1, wherein the carriage is configured to move along a first axis, wherein the printhead includes a linear matrix of pins parallel to the axis.14. The system of claim 1, wherein the at least one selectively activated perforating pin has an end selected from a group of ends including a pointed end, a pointed end having cutting edges, a cutting pin tip shaped like a screwdriver tip, a cutting pin tip shaped like a screwdriver tip having a slanted and widened cutting chisel-like end, and a radiating cutting end.15. The system of claim 1, wherein the scoring actuator directs the at least one selectively activated driven perforating pin recipricatorily completely through the printing surface.16. The system of claim 1 including a housing, wherein the end of the at least one perforating pin moves between a retracted position within the housing and an extended position beyond the housing.17. The system of claim 16, wherein the housing extends about the scoring actuator.18. A carriage printer system for printing and scoring media comprising:a carriage-mounted printhead; a carriage-mounted impact scoring head including at least one selectively activated driven perforating pin; a media transport mechanism to move the media relative to the printhead and relative to the scoring head in a media advance direction; a printing actuator that activates the printhead to selectively apply an image element on a printing surface of the media; and a scoring actuator that activates the impact scoring head to selectively move the at least one selectively activated driven perforating pin recipricatorily at least partially into the printing surface a plurality of times against the printing surface of the media as the impact scoring head is passed over the surface to create a predetermined score pattern including a series of perforations to facilitate separation of the media along such score pattern. 19. A printer system as in claim 18 which includes a single carriage for mounting both the printhead and the scoring head in side-by-side relationship.20. A printer system as in claim 18 which includes a single carriage for mounting both the printhead and the scoring head in spaced apart positions in the media advance direction.21. A printer system as in claim 18 wherein the image element is applied to the media during a first period of time to complete a portion of a printout, and the scoring pattern is created during a subsequent period of time to facilitate separation of the completed portion from the media.22. A printer system as in claim 18 wherein the scoring pattern is created during a same period of time as the image element is applied to the media.23. A apparatus comprising:a carriage configured to move across a print surface; a printing device carried by the carriage; a scoring head coupled to the carriage, the scoring head including: a member having a tip movable between a print surface engaging position and a print surface disengaged position; and an actuator configured to recipricatorily move the tip to the print surface engaging position a plurality of times forming a series of perforations. 24. The apparatus of claim 23, wherein the tip is resiliently biased towards one of the engaging position and the disengaged position.25. The apparatus of claim 23, wherein the actuator includes one of an electromagnetic actuator, an electrostatic actuator or a piezo electric actuator.26. The apparatus of claim 23 including a lubricant in contact with the member.27. The of apparatus of claim 23 including a media support configured to absorb force from the tip when the tip is in the print surface engaging position, wherein the media support is configured to endure repeated impacts from the tip without serious functional deterioration.28. The apparatus of claim 23, wherein the actuator is configured to recipricatorily drive the tip to the print surface engaging position a plurality of times so as to form overlapping penetrations.29. The apparatus of claim 23, wherein the actuator is configured to recipricatorily drive the tip to the print surface engaging position a plurality of times to form lines of penetrations, wherein different lines have different spacings between adjacent penetrations.