Abstract: A system and method for connecting a high voltage wiring harness assembly to a vehicle. The system includes a tubing configured to provide an enclosure for the high voltage wiring harness assembly. The material used to form the tubing includes polytetrafluoroethylene to protect the high voltage wiring harness assembly from abrasion and to insulate the high voltage wiring harness assembly from substantial temperature fluctuations. The system may include an adapter plate configured to provide a mechanical and electrical grounding connection to the vehicle. The system may include a coupling assembly configured to couple the tubing and the adapter plate. The coupling provides a water tight seal between the tubing and the adapter plate. The high voltage wiring harness assembly includes a grounding braid. The coupling assembly is further configured to couple the grounding braid to the adapter plate for completing an electrical circuit between the grounding braid and the vehicle.

Abstract: A system and method are provided for improving stack integrity for a set of image receiving media substrates at an output of a compiler in an image forming device positioning a plurality of pairs of rotating shelf structures in a vicinity of an exit/ejection port of an image receiving media processing or post-processing unit. The plurality of pairs of rotating shelf structures cycle between a first (support) position and a substantially orthogonal second (drop) position with respect to a rotating axis for the rotating shelf structures. Each of the rotating shelf structures has a uniquely-portioned top surface that includes a substantially-parallel top (supporting) portion and a ramped lead-in portion facing the exit/ejection port from the image receiving media processing or post-processing unit in an effort to reduce any image receiving media substrate “stubbing” against a first of the plurality of pairs of rotating shelf structures in a process direction.

Abstract: A system and method are provided for improving stack integrity for image receiving media substrates in a compiler tray in an image forming device by supplementing the structure of the compiler tray with a pair of auger components configured with a bottom surface that, in conjunction with a stepped support structure in the compiler tray, applies a mechanical leveling force to reduce or otherwise eliminate detrimental effects associated with substrate curl or uneven set build-up in the compiler tray. The vertical compiler components provide an accommodation for localized thickness build-up in compiled image receiving media substrates by one or more processing or post-processing steps. The auger components provide a mechanical pressing force that is intended to level a top surface of the compiled substrates with the configuration of the compiler tray providing the relief area necessary for the accommodation.

Abstract: A system and method are provided improving stack integrity for a set of image receiving media substrates at an output of a compiler in an image forming device by supplementing a compiler shelf with a pair of augers having a unique planar lead-in for a top surface of the augers. The vertical compiler components reduce a “stepped” configuration of conventional compiler systems to keep a bottom sheet substantially “flat” thereby reducing a tendency for the bottom sheet to disadvantageously shift during in-set alignment processing. The large flat surface at the top of the augers effectively extends the plane of the lead edge shelf. A larger contact area with the sheets/sets of image receiving media substrates, along with the flatter shape of the sets, results in a more stable stack with a lesser tendency of individual sheets to migrate away from a registration edge.

Abstract: A system and method are provided for improving stack integrity for a set of image receiving media substrates at an output of a compiler in an image forming device positioning a plurality of pairs of rotating shelf structures in a vicinity of an exit/ejection port of an image receiving media processing or post-processing unit. The plurality of pairs of rotating shelf structures cycle between a first (support) position and a substantially orthogonal second (drop) position with respect to a rotating axis for the rotating shelf structures. Each of the rotating shelf structures has a uniquely-portioned top surface that includes a substantially-parallel top (supporting) portion and a ramped lead-in portion facing the exit/ejection port from the image receiving media processing or post-processing unit in an effort to reduce any image receiving media substrate “stubbing” against a first of the plurality of pairs of rotating shelf structures in a process direction.

Abstract: A system and method are provided for improving stack integrity for image receiving media substrates in a compiler tray in an image forming device by supplementing the structure of the compiler tray with a pair of auger components configured with a bottom surface that, in conjunction with a stepped support structure in the compiler tray, applies a mechanical leveling force to reduce or otherwise eliminate detrimental effects associated with substrate curl or uneven set build-up in the compiler tray. The vertical compiler components provide an accommodation for localized thickness build-up in compiled image receiving media substrates by one or more processing or post-processing steps. The auger components provide a mechanical pressing force that is intended to level a top surface of the compiled substrates with the configuration of the compiler tray providing the relief area necessary for the accommodation.

Abstract: A system and method are provided improving stack integrity for a set of image receiving media substrates at an output of a compiler in an image forming device by supplementing a compiler shelf with a pair of augers having a unique planar lead-in for a top surface of the augers. The vertical compiler components reduce a “stepped” configuration of conventional compiler systems to keep a bottom sheet substantially “flat” thereby reducing a tendency for the bottom sheet to disadvantageously shift during in-set alignment processing. The large flat surface at the top of the augers effectively extends the plane of the lead edge shelf. A larger contact area with the sheets/sets of image receiving media substrates, along with the flatter shape of the sets, results in a more stable stack with a lesser tendency of individual sheets to migrate away from a registration edge.

Abstract: A non-gouging sheet stripper assembly is disclosed for stripping copy sheets from a surface of a moving fusing member. The non-gouging sheet stripper assembly includes (a) at least one baffle forming part of a sheet path; (b) a finger shaft having a first end attached to the at least one baffle and a second distal end for forming a sheet directing first angle with the surface of the moving fusing member; and (c) a finger tip located at the second distal end of the finger shaft and having a contour for forming a sheet stripping second angle, that is different from the sheet directing first angle with the surface of the moving fusing member.

Abstract: Systems and methods for generating an image on a recording medium having a recording layer that is layered by a protective layer. The recording medium includes a substrate and a recording layer with pores. The recording layer is attached to the substrate. The recording medium is processed by an image recording device that records an image on the recording layer. When the protective layer is applied to the recording layer, the image substantially remains the same.