Abstract: A method for machining may include providing a workpiece with a major (e.g., top) surface and an edge at a perimeter thereof. The method may also include providing a machining tool including an outer rotary cutter and an inner rotary cutter. The workpiece may be machined in a single pass of the machining tool around the perimeter thereof. Machining the workpiece may include simultaneously machining the edge with the inner rotary cutter and machining at least a portion of the major surface with the outer rotary cutter. Accordingly, the edge and at least a portion of the major surface of the workpiece may be simultaneously machined in a single pass. The inner rotary cutter may also simultaneously machine an undercut at the edge of the workpiece. A related machining apparatus including the machining tool is provided. Further, a computer readable medium may include program code for performing the above-described operations.

Abstract: Methods and structures for manufacturing and assembling matching parts in a manufacturing line are described. In some embodiments, the parts are portions of a consumer product, such as an electronic device. The matching parts are manufactured and assembled in a way such that the interface between the matching parts is substantially seamless. In some embodiments, the interface has a feature with curved portions. Methods involve measuring the dimensions of a primary part and custom machining a secondary part to seamlessly fit with the primary part. In this way, the secondary part is made to uniquely fit the primary part. The primary and secondary parts can be marked to identify them as matching parts in a manufacturing environment where numerous pairs of parts are made.

Abstract: Methods and structures for manufacturing and assembling matching parts in a manufacturing line are described. In some embodiments, the parts are portions of a consumer product, such as an electronic device. The matching parts are manufactured and assembled in a way such that the interface between the matching parts is substantially seamless. In some embodiments, the interface has a feature with curved portions. Methods involve measuring the dimensions of a primary part and custom machining a secondary part to seamlessly fit with the primary part. In this way, the secondary part is made to uniquely fit the primary part. The primary and secondary parts can be marked to identify them as matching parts in a manufacturing environment where numerous pairs of parts are made.

Abstract: A method for machining may include providing a workpiece with a major (e.g., top) surface and an edge at a perimeter thereof. The method may also include providing a machining tool including an outer rotary cutter and an inner rotary cutter. The workpiece may be machined in a single pass of the machining tool around the perimeter thereof. Machining the workpiece may include simultaneously machining the edge with the inner rotary cutter and machining at least a portion of the major surface with the outer rotary cutter. Accordingly, the edge and at least a portion of the major surface of the workpiece may be simultaneously machined in a single pass. The inner rotary cutter may also simultaneously machine an undercut at the edge of the workpiece. A related machining apparatus including the machining tool is provided. Further, a computer readable medium may include program code for performing the above-described operations.

Abstract: The present invention discribes a rotatable print drum apparatus for supporting thereon a printable medium having leading and trailing edges. The print drum comprises a relieved support surface for supporting the print medium wherein the relieved surface is formed with a recessed surface and a plurality of ribs protruding from the recessed surface in order to minimize contact of the print medium with the support surface of the drum.

Abstract: The present invention relates generally to securing a sheet medium onto a support surface and, more particularly, to a print drum for supporting a flexible film sheet medium on a relieved support surface so as to desensitize to medium to the effects of debris contamination and air turbulence for allowing the sheet to be imprinted with consistent resolution.