Media load damper guide for printers

The invention claimed is: 1. A media transport assembly configured to transport media under a tension load along a media feed path, the media transport assembly comprising: a stationary guide roller; a bottom guide roller; and a hinged access assembly that is rotatably mounted to a hinge and movable between an open position and a closed position, wherein the hinged access assembly comprises a biased guide roller that is configured to apply a biasing force to the media away from the stationary guide roller when the hinged access assembly is disposed in the closed position; wherein: the biased guide roller is movable closer to the stationary guide roller against the biasing force in response to variations in the tension load with the hinged access assembly disposed in the closed position; the hinge is located downstream along the media feed path from the biased guide roller; the biased guide roller is positioned between the bottom guide roller and the stationary guide roller along the media feed path in response to the hinged access assembly being disposed in the closed position; and the biased guide roller is moved along a linear biasing path defined by a linear slot in the hinged access assembly, wherein the biased guide roller is spaced apart from the media when the hinged access assembly is disposed in the open position, and the biased guide roller is in contact with the media when the hinged access assembly is disposed in the closed position. 2. The media transport assembly of claim 1 , wherein the biased guide roller is displaced in a direction opposite the biasing force in response to an increase in tension of the media along the media feed path. 3. The media transport assembly of claim 1 , wherein the hinge is upstream from a media processing assembly. 4. The media transport assembly of claim 1 , wherein the hinged access assembly further comprises a top guide roller mounted to the hinged access assembly upstream of the biased guide roller. 5. The media transport assembly of claim 1 , wherein the media feed path is defined between a top guide roller and the bottom guide roller, and the media is engaged on one side by the biased guide roller and on another side by the stationary guide roller. 6. The media transport assembly of claim 5 , wherein the top guide roller is attached to the hinged access assembly and the bottom guide roller and the stationary guide roller are attached to a base member of the media transport assembly. 7. The media transport assembly of claim 6 , wherein the media feed path is defined between the hinged access assembly and the base member. 8. A media transport assembly comprising: a top guide roller positioned on a first side of a media feed path, wherein: media is drawn along the media feed path from a media supply roll, the media supply roll being movable from a first position on the first side of the media feed path to a second position on a second side of the media feed path opposite the first side; the top guide roller is configured to engage and direct the media along the media feed path from the media supply roll when the media supply roll is disposed in the first position; and the top guide roller is configured to not engage the media when the media supply roll is disposed in the second position and the media is under tension in the media feed path; a bottom guide roller positioned on the second side of the media feed path, wherein: the bottom guide roller is configured to engage and direct the media along the media feed path from the media supply roll when the media supply roll is disposed in the second position; the bottom guide roller is configured to not engage the media when the media supply roll is disposed in the first position and the media is under tension in the media feed path; a stationary roller disposed on the second side of the media feed path; and a biased guide roller mounted to a hinged access assembly that is movable between an open position and a closed position relative to a base member, the biased guide roller configured to apply a biasing force to the media away from the stationary roller with the hinged access assembly in the closed position, wherein the biased guide roller is moved toward the stationary roller against the biasing force in response to an increase in tension of the media with the hinged access assembly in the closed position, and wherein the biased guide roller is configured to be positioned between the bottom guide roller and the stationary roller along the media feed path in response to the hinged access assembly being disposed in the closed position, wherein the biased guide roller is moved along a linear biasing path defined by a slot in the hinged access assembly, wherein the slot is linear and perpendicular to the media feed path when the hinged access assembly is in the closed position. 9. The media transport assembly of claim 8 , wherein the top guide roller is attached to the hinged access assembly and wherein the bottom guide roller is attached to the base member. 10. The media transport assembly of claim 8 , wherein the biased guide roller is displaced in a direction opposite the biasing force in response to an increase in tension of the media along the media feed path. 11. The media transport assembly of claim 8 , wherein a portion of the media extending from at least one of the top guide roller or the bottom guide roller to the stationary roller is not deflected by any rollers or guides in response to the hinged access assembly being disposed in the open position, and wherein the portion of the media extending between the bottom guide roller and the stationary roller is deflected by the biasing roller in response to the hinged access assembly being disposed in the closed position. 12. A media transport assembly configured to transport media along a media feed path under a tension load, the media transport assembly comprising: a biased guide roller mounted to a hinged access assembly that is movable between an open position and a closed position relative to a base member, the biased guide roller configured to apply a biasing force to the media away from a stationary guide roller with the hinged access assembly in the closed position, wherein the biased guide roller is moved closer to the stationary guide roller against the biasing force in response to an increase of the tension load with the hinged access assembly in the closed position, and wherein the biased guide roller is a rotationally bidirectional non-driven roller; a bottom guide roller disposed on a first side of the media feed path and attached to the base member; and a linear biasing element having a longitudinal length, wherein the biasing force is applied in a direction parallel to the longitudinal length, wherein: the stationary guide roller is disposed on the first side of the media feed path and attached to the base member; the biased guide roller is disposed on a second side of the media feed path opposite the first side, between the bottom guide roller and the stationary guide roller along the media feed path, in response to the hinged access assembly being disposed in the closed position; the biased guide roller is engaged with the media when the hinged access assembly is in the closed position, and the biased guide roller is disengaged from the media when the hinged access assembly is moved from the closed position to the open position; and the biased guide roller is displaced linearly in a direction opposite the direction of the biasing force in response to an increase in tension of the media along the media feed path. 13. The media transport assembly of claim 12 , further c