초록 ▼

A liquid ink imaging member having a top outer imaging surface is provided for receiving image forming ink droplets from a printhead. The liquid ink imaging member includes (a) a substrate member; (b) at least one elastomeric layer formed over the substrate member and including the top outer imaging

A liquid ink imaging member having a top outer imaging surface is provided for receiving image forming ink droplets from a printhead. The liquid ink imaging member includes (a) a substrate member; (b) at least one elastomeric layer formed over the substrate member and including the top outer imaging surface; and (c) a surface texture formed into the top outer imaging surface and comprising asperities spaced apart at most from about one-half to about one pixel spot size for providing contact angle hysteresis to pin image forming ink droplets received thereon, thereby preventing ink droplet drawback, and resulting in quality images.

대표청구항 ▼

What is being claimed is: 1. An offset printing drum for use in a phase change ink printing machine to receive ink droplets from a printhead forming an image, and to transfer such image onto an image receiving substrate, the offset the offset printing drum comprising: (a) a substrate member; (b) at

What is being claimed is: 1. An offset printing drum for use in a phase change ink printing machine to receive ink droplets from a printhead forming an image, and to transfer such image onto an image receiving substrate, the offset the offset printing drum comprising: (a) a substrate member; (b) at least one elastomeric layer formed over said substrate member and including a top outer imaging surface for receiving image forming ink droplets from the printhead; and (c) a surface texture formed into said top outer imaging surface and comprising a cross-hatched pattern of lines, said lines being spaced apart at most one-half to one pixel spot size for providing contact angle hysteresis to pin image forming ink droplets received thereon, thereby preventing ink droplet drawback, and resulting in quality images. 2. The offset printing drum of claim 1, wherein said surface texture comprises a surface roughness Ra within a range of from about 0. 05 micron to about 1 micron. 3. The offset printing drum of claim 1, wherein said imaging member includes an intermediate elastomeric layer formed between said substrate member and said at least one elastomeric layer. 4. The offset printing drum of claim 1, wherein said surface texture formed into said top outer imaging surface comprises asperities spaced apart less than one-half pixel spot size. 5. The offset printing drum of claim 1, wherein said at least one elastomeric layer is made of a fluoroelastomer. 6. The offset printing drum of claim 1, wherein said substrate member is comprised of aluminum. 7. The offset printing drum of claim 1, wherein said cross-hatched pattern comprises asperities one-eight to one quarter pixel size deep. 8. The offset printing drum of claim 1, wherein said lines each have an angle within a range of 30 degrees to 60 degrees with a plane parallel to a longitudinal axis of the imaging surface. 9. The offset printing drum of claim 8 wherein said lines each have an angle within a range of 30 degrees to 60 degrees with a plane parallel to a longitudinal axis of the imaging surface. 10. A phase change ink image producing machine comprising: (a) a control subsystem for controlling operation of all subsystems and components of the image producing machine; (b) melting apparatus for melting solid phase change ink into melted molten liquid ink; (c) a printhead system located for receiving said melted molten liquid ink, said printhead system being connected to said control subsystem for ejecting droplets of melted molten liquid ink onto an imaging member to form an image; and (d) a movable imaging member having a top outer imaging surface for receiving said droplets of melted molten liquid ink from said printhead system, said imaging member comprising: (i) a substrate member; (ii) at least one elastomeric layer formed over said substrate member and including said top outer imaging surface; and (iii) a surface texture formed into said top outer imaging surface and comprising asperities spaced apart at most one-half to one pixel spot for providing contact angle hysteresis to pin image forming ink droplets received thereon, thereby preventing ink droplet drawback, and resulting in quality images. 11. The phase change ink image producing machine of claim 10, wherein said surface texture comprises a cross-hatched pattern. 12. The phase change ink image producing machine of claim 10, wherein said surface texture comprises a surface roughness Ra within a range of from about 0.05 micron to about 1 micron. 13. The phase change ink image producing machine of claim 10, wherein said imaging member includes an intermediate elastomeric layer formed between said substrate member and said at least one elastomeric layer. 14. The phase change ink image producing machine of claim 10, wherein said surface texture formed into said top outer imaging surface comprises asperities spaced apart less than one-half pixel spot. 15. The phase change ink image producing machine of claim 10, wherein said at least one elastomeric layer is made of a fluoroelastomer. 16. The phase change ink image producing machine of claim 10, wherein said substrate member is comprised of aluminum. 17. The image producing machine of claim 11, wherein said cross-hatched pattern comprises asperities one-eighth to one quarter size of pixel deep. 18. The phase change ink image producing machine of claim 11, wherein said cross-hatched pattern is comprised of crossing lines each having an angle within a range of 30 degrees to 60 degrees with a plane parallel to a longitudinal axis of the imaging surface. 19. The phase change ink image producing machine of claim 18, wherein said cross-hatched pattern is comprised of crossing lines each having an angle of 45 degrees with said plane parallel to a longitudinal axis of the imaging surface. 20. A phase change ink image producing machine comprising: (a) a control subsystem for controlling operation of all subsystems and components of the image producing machine; (b) melting apparatus for melting solid phase change ink into melted molten liquid ink; (c) a printhead system located for receiving said melted molten liquid ink, said printhead system being connected to said control subsystem for ejecting droplets of melted molten liquid ink onto an imaging member to form an image; and (d) a movable offset printing drum having a top outer imaging surface for receiving said droplets of melted molten liquid ink from said printhead system, said offset printing drum comprising: (i) a substrate member; (ii) at least one elastomeric layer formed over said substrate member and including said top outer imaging surface; and (iii) a surface texture formed into said top outer imaging surface and comprising a cross-hatched pattern of lines spaced apart at most one-half to one pixel spot for providing contact angle hysteresis to pin image forming ink droplets received thereon, thereby preventing ink droplet drawback, and resulting in quality images. 21. The phase change ink image producing machine of claim 20, wherein said surface texture comprises a surface roughness Ra within a range of from about 0.05 micron to about 1 micron. 22. The phase change ink image producing machine of claim 20, wherein said offset printing drum includes an intermediate elastomeric layer formed between said substrate member and said at least one elastomeric layer. 23. The phase change ink image producing machine of claim 20, wherein said surface texture formed into said top outer imaging surface comprises a cross-hatched pattern of lines spaced apart less than one-half pixel spot. 24. The phase change ink image producing machine of claim 20, wherein said at least one elastomeric layer is made of a fluoroelastomer. 25. The phase change ink image producing machine of claim 20, wherein said substrate member is comprised of aluminum. 26. The image producing machine of claim 20, wherein lines of said cross-hatched pattern of lines are one-eighth to one quarter size of a pixel deep. 27. The phase change ink image producing machine of claim 20, wherein said cross-hatched pattern of lines is comprised of crossing lines each having an angle within a range of 30 degrees to 60 degrees with a plane parallel to a longitudinal axis of the imaging surface. 28. The phase change ink image producing machine of claim 27, wherein said cross-hatched pattern of lines is comprised of crossing lines each having an angle of 45 degrees with said plane parallel to a longitudinal axis of the imaging surface.