Systems and methods for implementing advanced stripping of image receiving media substrates in image forming devices

We claim: 1. A system for transporting image receiving media in an image forming device, comprising: an imaging member; an opposing member, the opposing member exerting a force on the imaging member to form a transfer nip in which images formed on the imaging member are transferred to a first surface of an image receiving media substrate introduced into the transfer nip; a stripper roller positioned downstream of the transfer nip in a process direction, the stripper roller (1) forming a stripping nip through interaction with the imaging member, and (2) exerting a peeling force on the image receiving media by contact with a second surface of the image receiving media, the second surface of the image receiving media being opposite to the first surface; a mechanical component that moves the stripper roller between a first position and a second position, the first position being in contact with the imaging member to form the stripping nip and the second position opening contact between the stripper roller and the imaging member; and at least one stripping device in physical contact with the stripper roller downstream of the stripping nip in the process direction to strip the image receiving media from contact with the stripper roller, the at least one stripping device comprising a plurality of stripping ribs interspaced along a span-wise length of the stripper roller. 2. The system of claim 1 , the imaging member being an imaging belt, the imaging belt being threaded around an internal pressure roller, and the opposing member being an external pressure roller that is in contact with the imaging belt to form the transfer nip by sandwiching the imaging belt between the internal pressure roller and the external pressure roller. 3. The system of claim 2 , the stripper roller having a diameter that is less than a diameter of the internal pressure roller. 4. The system of claim 1 , the stripper roller having a diameter in a range of 25-50 mm. 5. The system of claim 1 , at least a surface of the stripper roller being formed of a material that exerts the peeling force to overcome an adhering force of the image receiving media substrate to the imaging member downstream of the transfer nip in the processing direction. 6. The system of claim 5 , the at least the surface of the stripper roller being formed of a silicone material. 7. The system of claim 1 , further comprising a pair of exit nipped drive rollers positioned downstream of the at least one stripping device in the process direction to transport the image receiving media. 8. An image forming device, comprising: an image receiving media supply component; an imaging member; a media marking unit for forming transferable images on the imaging member; an opposing member exerting a force on the imaging member to form a transfer nip in which the transferable images formed on the imaging member are transferred to a first surface of an image receiving media substrate introduced into the transfer nip; a stripping unit, comprising a stripper roller positioned downstream of the transfer nip in a process direction, the stripper roller (1) forming a stripping nip through interaction with the imaging member, and (2) exerting a peeling force on the image receiving media by contact with a second surface of the image receiving media, the second surface of the image receiving media being opposite to the first surface; a mechanical component that moves the stripper roller between a first position and a second position, the first position being in contact with the imaging member to form the stripping nip and the second position opening contact between the stripper roller and the imaging member; and at least one stripping device in physical contact with the stripper roller downstream of the stripping nip in the process direction to strip the image receiving media from contact with the stripper roller, the at least one stripping device comprising a plurality of stripping ribs interspaced along a span-wise length of the stripper roller. 9. The image forming device of claim 8 , the imaging member being an imaging belt, the imaging belt being threaded around an internal pressure roller, and the opposing member being an external pressure roller that is in contact with the imaging belt to form the transfer nip by sandwiching the imaging belt between the internal pressure roller and the external pressure roller. 10. The image forming device of claim 9 , the stripper roller having a diameter that is less than a diameter of the internal pressure roller. 11. The image forming device of claim 8 , at least a surface of the stripper roller being formed of a material that exerts the peeling force to overcome an adhering force of the image receiving media substrate to the imaging member downstream of the transfer nip in the processing direction. 12. The image forming device of claim 11 , the at least the surface of the stripper roller being formed of a silicone material. 13. The image forming device of claim 8 , the stripping unit further comprising a pair of exit nipped drive rollers positioned downstream of the at least one stripping device in the process direction to transport the image receiving media. 14. A method for transporting image receiving media in an image forming device, comprising: forming an image on an imaging member; contacting the imaging member with an opposing member, the opposing member exerting a force on the imaging member to form a transfer nip in which images formed on the imaging member are transferred to a first surface of an image receiving media substrate introduced into the transfer nip; contacting the imaging member with a stripper roller positioned downstream of the transfer nip in a process direction to form a stripping nip; exerting, with the stripper roller, a peeling force on the image receiving media by contact between the stripper roller and a second surface of the image receiving media, the second surface of the image receiving media being opposite to the first surface; employing a mechanical component to move the stripper roller between a first position and a second position, the first position being in contact with the imaging member to form the stripping nip and the second position opening contact between the stripper roller and the imaging member; and contacting the stripper roller with at least one stripping device downstream of the stripping nip in the process direction to strip the image receiving media from contact with the stripper roller, the at least one stripping device comprising a plurality of stripping ribs interspaced along a span-wise length of the stripper roller. 15. The method of claim 14 , the imaging member being an imaging belt, the imaging belt being threaded around an internal pressure roller, and the opposing member being an external pressure roller that is in contact with the imaging belt to form the transfer nip by sandwiching the imaging belt between the internal pressure roller and the external pressure roller. 16. The method of claim 15 , the stripper roller having a diameter that is less than a diameter of the internal pressure roller. 17. The method of claim 14 , at least a surface of the stripper roller being formed of a material that exerts the peeling force to overcome an adhering force of the image receiving media substrate to the imaging member downstream of the transfer nip in the processing direction. 18. The method of claim 17 , the at least the surface of the stripper roller being formed of a silicone material. 19. The method of claim 1