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A mobile pedestal includes a wheeled cabinet unit with a cabinet made from sheet metal, and a cushioned upholstery-covered top subassembly attached to a top of the wheeled cabinet unit. The top subassembly includes a flat housing made of a wood product and that is shaped to substantially cover the c

A mobile pedestal includes a wheeled cabinet unit with a cabinet made from sheet metal, and a cushioned upholstery-covered top subassembly attached to a top of the wheeled cabinet unit. The top subassembly includes a flat housing made of a wood product and that is shaped to substantially cover the cabinet. The housing defines a pair of edge-located elongated cavities. A U-shaped handle with elongated legs that extend into and slidably engage the cavities so that the handle is movable to an internal storage position in the cavities and to an extended angled use position. The legs have a turned-in end and the cavities are configured to engage the turned-in ends to retain the handle to the housing when the handle is in the extended use position, but further the legs are configured to permit the handle to rotate from a horizontal extended position to the angled use position when extended.

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A mobile pedestal includes a wheeled cabinet unit with a cabinet made from sheet metal, and a cushioned upholstery-covered top subassembly attached to a top of the wheeled cabinet unit. The top subassembly includes a flat housing made of a wood product and that is shaped to substantially cover the c

A mobile pedestal includes a wheeled cabinet unit with a cabinet made from sheet metal, and a cushioned upholstery-covered top subassembly attached to a top of the wheeled cabinet unit. The top subassembly includes a flat housing made of a wood product and that is shaped to substantially cover the cabinet. The housing defines a pair of edge-located elongated cavities. A U-shaped handle with elongated legs that extend into and slidably engage the cavities so that the handle is movable to an internal storage position in the cavities and to an extended angled use position. The legs have a turned-in end and the cavities are configured to engage the turned-in ends to retain the handle to the housing when the handle is in the extended use position, but further the legs are configured to permit the handle to rotate from a horizontal extended position to the angled use position when extended. embers each projecting from said second surface to a distal end. 3. The bearing containing and force applying device of claim 2, wherein said plural spring members include at least a first, a second and a third spring members. 4. The bearing containing and force applying device of claim 2, wherein said plural spring members include at least a first, a second and a third spring members spaced circumferencially around a common center. 5. The bearing containing and force applying device of claim 2, wherein each said plural spring members comprises a flat spring. 6. The bearing containing and force applying device of claim 2, wherein said distal end of each said plural spring members is curved backwardly towards said first surface. 7. The bearing containing and force applying device of claim 1, including a bearing member for mounting into the bearing support wall portion. 8. The bearing containing and force applying device of claim 1, wherein said chest portion includes a retaining aperture therethrough for fitting over said bearing device. 9. The bearing containing and force applying device of claim 1, wherein each said shoulder portion includes a curved shoulder-to-chest connecting portion having an adjustable radius of curvature. 10. The bearing containing and force applying device of claim 1, wherein each said first and second resilient shoulder portions includes a curved shoulder-to-hand connecting portion having an adjustable radius of curvature. 11. The bearing containing and force applying device of claim 1, wherein each said first and second hand portions includes a distal hook end for contacting and latching against said support wall portion. 12. A bearing assembly for supporting a rotatable shaft in a wall of a machine comprising: a. a support wall portion of the wall of the machine, said support wall portion having a first surface, a wall thickness and a second and opposite surface; b. a central opening through said support wall portion; c. a bearing receiving recess formed from said first surface partially into said wall thickness of said support wall portion; d. plural receiving openings formed through said wall thickness of said support wall portion and spaced from said central opening; and e. an adjustable force applying spring clip for applying a desired normal force to a bearing member in said receiving recess, said adjustable force applying spring clip including: i. a chest portion for contacting said bearing device, said chest portion having first and second edges, and a first surface, and a second surface for contacting a bearing member; ii retaining means connected to said second surface of said chest portion and defining a channel for receiving and retaining a bearing member; iii a bearing member for inserting into said channel defined by said retaining means, said bearing member having an inner bore and an external surface frictionally contacting said retaining members; iv. resilient shoulder portions connected one to each of said first and second edges respectively, each said first and second shoulder portions being bent towards said first surface of said chest portion; and v. first and second hand portions connected one to each of said first and second resilient shoulder portions, each said first and second hand portions being bent toward said second surface of said chest portion from said first and second resilient shoulder portions respectively for snapping into a first and a second receiving openings of said plural receiving openings through said wall thickness of said support wall portion. 13. The bearing assembly of claim 12, including a retaining ring for fitting over said bearing device between said first surface of said support wall portion and said chest portion of said adjustable force applying spring clip. 14. The bearing assembly of claim 12, wherein said bearing device has a cylindrical external surface. 15. The bearing assembly of claim 12, wherein said chest portion includes a retaining aperture therethrough for fitting over said bearing device. 16. The bearing assembly of claim 12, wherein each said shoulder portion includes a curved shoulder-to-chest connecting portion having an adjustable radius of curvature. 17. The bearing assembly of claim 12, wherein each said first and second resilient shoulder portions includes a curved shoulder-to-hand connecting portion having an adjustable radius of curvature. 18. The bearing assembly of claim 12, wherein each said first and second hand portions includes a distal hook end for contacting and latching against said support wall portion. 19. A bearing assembly for supporting a rotatable shaft in a support wall portion of a wall of a machine, where the support wall portion has a first surface, a wall thickness and a second and opposite surface, a central opening through the support wall portion, a bearing receiving recess formed from the first surface partially into the wall thickness of the support wall portion, and plural receiving openings including a first and a second receiving opening formed through the wall thickness of the support wall portion and spaced from the central opening, the bearing assembly comprising: a. a bearing member, said bearing member having an inner bore and an external surface; and b. a bearing containing and force applying device for containing and retaining said bearing member for insertion into the bearing receiving recess, the bearing containing and force applying device comprising a single piece member including an adjustable force applying spring clip for applying a desired normal force to the bearing member within the receiving recess, said adjustable force applying spring clip including: i. a chest portion for contacting said bearing member, said chest portion having first and second edges, and a first surface, and a second surface for contacting the bearing member; ii retaining means connected to said second surface of said chest portion and defining a channel for receiving and containing said bearing member; iii. resilient shoulder portions connected one to each of said first and second edges respectively, each said first and second shoulder portions being bent towards said first surface of said chest portion; and iv. first and second hand portions connected one to each of said first and second resilient shoulder portions, each said first and second hand portions being bent toward said second surface of said chest portion from said first and second resilient shoulder portions respectively for snapping into the first and a second receiving openings of the plural receiving openings through the wall thickness of the support wall portion. 20. An electrostatographic reproduction machine comprising: a. subsystems including a movable image bearing member, imaging devices, and at least a development apparatus, for forming and transferring a toner image onto a copy sheet; b. rotatable components within said subsystems for mounting and supporting rotatably in a bearing assembly; and c. a bearing assembly for supporting each said rotatable component in a support wall portion of said machine, said bearing assembly including: i. a bearing member, said bearing member having an inner bore and an external surface; and ii. a bearing containing and force applying device for containing and retaining said bearing member for insertion into the bearing receiving recess, the bearing containing and force applying device comprising a single piece member including an adjustable force applying spring clip for applying a desired normal force to the bearing member within the receiving recess, said adjustable force applying spring clip having: a chest portion for contacting said bearing member, said chest portion having first and second edges, and a first surface, and a second surface for contacting the bearing member; retaining means connected to said second surface of said chest portion and defining a channel for receiving