Interdigitated vacuum roll system for a cut sheet printer dryer transport

What is claimed is: 1. A vacuum roller system, comprising: an assembly of interdigitated rollers comprising an interdigitated pattern of rollers comprising interlocked rollers that are clasped or interleaved, wherein the assembly of interdigitated rollers includes a plurality of shafts on which the interlocked rollers are located, wherein the plurality of shafts includes variable shaft spacing; a vacuum system, wherein the assembly of interdigitated rollers is operably connected to the vacuum system to move sheets of media through a downstream dryer in a printer, wherein a vacuum is drawn between individual rollers among the assembly of interdigitated rollers, wherein the vacuum is distributed across a sheet of media among the sheets of media and is split around the individual rollers; a vacuum plenum that covers a bottom of the assembly of interdigitated rollers, the vacuum plenum including a lower plenum, wherein the vacuum is drawn between each individual roll among the individual rollers, wherein a distribution of vacuum thereof spreads a vacuum pressure over the sheet of media in an even manner, wherein the vacuum plenum equalizes the vacuum pressure for the distribution of the vacuum in an even manner because of an irregular supply or an irregular demand; and a control system linked to the assembly of interdigitated rollers comprising the interdigitated pattern of rollers, wherein the control system is operable to adjust roll spacing among the rollers of the assembly of interdigitated rollers and the vacuum pressure based on media parameters input to the vacuum roller system. 2. The system of claim 1 wherein: a spacing between the individual rollers among the assembly of interdigitated rollers is variable to vary the vacuum as a result of the variable shaft spacing; and each shaft among the plurality of shafts comprises a drive shaft that engages a respective timing pulley at an end of each respective drive shaft. 3. The system of claim 2 wherein: the vacuum system is operable to change the vacuum drawn between the individual rollers among the assembly of interdigitated rollers; and the respective timing pulley turns the respective drive shaft and engages respectively with a group of rollers in the interdigitated pattern of rollers. 4. The system of claim 1 wherein the interdigitated rollers create a roller surface comprising inter-roller gaps that reduce a spacing among the interdigitated rollers to facilitate a roller-to-roller transition with respect to each sheet of media among the sheets of media. 5. The system of claim 1 further comprising a single drive system that drives the assembly of interdigitated rollers. 6. The system of claim 5 wherein the single drive system rotates the interdigitated rollers and allows for a roller spacing among the interdigitated rollers to be varied on a media-to-media basis or to facilitate optimizing the vacuum delivered to a surface of the media. 7. The system of claim 5 wherein the assembly of interdigitated rollers comprises a plurality of timing pulleys. 8. A vacuum roller system, comprising: an assembly of interdigitated rollers comprising an interdigitated pattern of rollers comprising interlocked rollers that are clasped or interleaved, wherein the assembly of interdigitated rollers includes a plurality of shafts on which the interlocked rollers are located, the plurality of shafts including variable shaft spacing; a single drive system that drives the assembly of interdigitated rollers; a vacuum system, wherein the assembly of interdigitated rollers is operably connected to the vacuum system to move sheets of media through a downstream dryer in a printer, wherein a vacuum is drawn between individual rollers among the assembly of interdigitated rollers, wherein the vacuum is distributed across a sheet of media among the sheets of media and is split around the individual rollers among the assembly of interdigitated rollers; a vacuum plenum that covers a bottom of the assembly of interdigitated rollers, the vacuum plenum including a lower plenum, wherein the vacuum is drawn between each individual roll among the individual rollers, wherein a distribution of vacuum thereof spreads a vacuum pressure over the sheet of media in an even manner, wherein the vacuum plenum equalizes the vacuum pressure for the distribution of the vacuum in an even manner because of an irregular supply or an irregular demand; and a control system linked to the assembly of interdigitated rollers comprising the interdigitated pattern of rollers, wherein the control system is operable to adjust roll spacing among the rollers of the assembly of interdigitated rollers and the vacuum pressure based on media parameters input to the vacuum roller system. 9. The system of claim 8 wherein: a spacing between the individual rollers among the assembly of interdigitated rollers is variable to vary the vacuum as a result of the variable shaft spacing; and each shaft among the plurality of shafts comprises a drive shaft that engages a respective timing pulley. 10. The system of claim 9 wherein: the vacuum system is operable to change the vacuum drawn between the individual rollers among the assembly of interdigitated rollers; and the respective timing pulley turns a respective drive shaft and engages respectively with a group of rollers in the interdigitated pattern of rollers. 11. The system of claim 8 wherein the interdigitated rollers create a roller surface comprising inter-roller gaps that reduce a spacing among the interdigitated rollers to facilitate a roller-to-roller transition with respect to each sheet of media among the sheets of media. 12. A method of operating a vacuum roller system, comprising: creating a vacuum with a vacuum system; and moving sheets of media through a downstream dryer in a printer, wherein the vacuum is drawn between individual rollers among an assembly of interdigitated rollers comprising an interdigitated pattern of rollers comprising interlocked rollers that are clasped or interleaved, wherein the assembly of interdigitated rollers includes a plurality of shafts on which the interlocked rollers are located, wherein the plurality of shafts includes variable shaft spacing; distributing with a vacuum plenum that covers a bottom of the assembly of interdigitated rollers, the vacuum plenum including a lower plenum, the vacuum provided by the vacuum system across a sheet of media among the sheets of media, wherein the vacuum is split around the individual rollers among the assembly of interdigitated rollers, wherein the vacuum is drawn between each individual roll among the individual rollers, wherein a distribution of the vacuum spreads pressure over the sheet of media in an even manner, wherein the vacuum plenum equalizes a pressure for the distribution of the vacuum in an even manner because of an irregular supply or an irregular demand; and adjusting through a control system linked to the assembly of interdigitated rollers comprising the interdigitated pattern of rollers, roll spacing among the rollers of the assembly of interdigitated rollers and the vacuum pressure based on media parameters input to the vacuum roller system from the control system. 13. The method of claim 12 adjusting a spacing between the individual rollers among the assembly of interdigitated rollers to vary the vacuum. 14. The method of claim 12 wherein the vacuum system is operable to change the vacuum drawn between the individual rollers among the assembly of interdigitated rollers. 15. The method of claim 12 further comprising creating a roller surface via the assembly of