Abstract: A flexible imaging sheet and a method of constructing a flexible imaging sheet is disclosed. The method of constructing a flexible imaging sheet comprises a step of overlapping, a step of joining, and a step of shaping. In the step of overlapping, a first marginal end region and a second marginal end region of a sheet are overlapped to form an overlap region and a non-overlap region. In the step of joining, the first marginal end region and the second marginal end region of the sheet are joined to one another by a seam in the overlap region. In the step of shaping, the overlap region is shaped to form a generally planar surface co-planar with a surface of the non-overlap region. The flexible imaging sheet comprises a first marginal end region and a second marginal end region The first marginal end region and the second marginal end region are secured by a seam to one another in the overlap region.

Abstract: A system for loading a plurality of cylindrical members, initially oriented to longitudinally extend in a first direction, into a processing module adapted to receive the plurality of cylindrical members longitudinally extending in a second direction, is disclosed. The system is particularly adapted for use in a rotary atomization manufacturing system for manufacturing photoreceptors from the cylindrical member in the form of substrate members. The system includes a first support structure for receiving and retaining removably thereon the plurality of cylindrical members oriented to longitudinally extend in the first direction. The system transfers the plurality of cylindrical members, longitudinally extending in the first direction, to the first support structure. The system includes a second support structure for receiving and retaining removably thereon the plurality of cylindrical members oriented to longitudinally extend in the second direction.

Abstract: A system for loading a sleeve-like substrate into a processing module is disclosed. The system engages and retains a sleeve-like substrate by utilizing a first load head of a robot. The first load head typically engages and removes the sleeve-like substrate from a conveyor. The first load head transfer the sleeve-like substrate to a processing station module within the system. A second load head of the robot removes the sleeve-like substrate from the processing station module and transfers the module to a movable support structure. The robot provides movement of first or second load heads from a first position to a second position to orient the sleeve-like member in alignment with the support structure. The support structure inserts the sleeve-like substrate into the processing chamber for further processing. The system is particularly adapted for use in a rotary atomization manufacturing system in which a photoreceptor is manufactured by processing the sleeve-like substrate.

Abstract: A seamed flexible imaging member and a method of constructing a flexible imaging sheet is disclosed. The method of constructing a flexible imaging sheet comprises the steps overlapping and forming. In the step of overlapping, a first marginal end region and a second marginal end region of the sheet are overlapped. In the forming step, a surface is formed integral with one end of the sheet and having at least one groove therein. The surface secures the first marginal end region and the second marginal end region to one another by a seam. The seamed flexible imaging member comprises a sheet having opposed marginal end regions. The marginal end regions of the sheet are secured to one another by a material which may include a portion of the sheet, a separate securing material or both. The material defines a surface having at least one groove therein with one end of the surface being integral with one end of the sheet.

Abstract: A seamed flexible imaging member and a method of constructing a flexible imaging sheet is disclosed. The method of constructing a flexible imaging sheet comprises the steps of overlapping and forming. In the step of overlapping, a first marginal end region and a second marginal end region of the sheet are overlapped. In the forming step, a substantially planar surface is formed, extending in a direction transverse to the sheet with one end of the planar surface being integral with the sheet adjacent one end of the sheet and the other end of the planar surface being integral with the sheet adjacent the other end of the sheet, for securing the first marginal end region and the second marginal end region to one another by a seam. The seamed flexible imaging member comprises a sheet having a first marginal end region and a second marginal end region.