Cylindrical workpiece and a method and an apparatus for machining the cylindrical workpiece

What is claimed is: 1. A method for machining a cylindrical workpiece comprising steps of: supporting the workpiece on a driving center and a centering center, the workpiece formed with a through aperture or a radially inward projection; and finish machining an outer circumferential surface of the workpiece by rotating the workpiece under a condition where a kelly, embedded into a hollow spindle, has an engagement piece integrally a tip end of a kelly driving shaft, the kelly is arranged on a same axial line with a driving cylinder and the kelly, detachably fitted in the tip end of the kelly driving shaft, is axially driven by the driving cylinder, and rotated together with the driving center by the spindle, the kelly is moved in a radial direction and the engagement piece is engaged with the through aperture or a radially inward projection of the workpiece within an inner bore of the through aperture or a radially inward projection of the workpiece. 2. The apparatus for machining a cylindrical workpiece comprising: a hollow spindle with a driving center on its tip end, the hollow spindle rotationally journaled within a spindle unit; a tail stock spindle with a centering center, the tail stock spindle rotationally supported and axially movably within a centering unit; a shaft-like kelly non-rotationally supported within an inner bore of the hollow spindle, the shaft-like kelly is rotational with the hollow spindle and is axially movably relative to the hollow spindle and the kelly has an engagement piece integrally formed on the tip; a driving means for rotationally driving the hollow spindle; cylinders axially driving the kelly and the tail stock spindle, respectively; and the spindle, the tail stock spindle and the cylinders are arranged on a same axial line, the cylindrical workpiece, formed with a through aperture or a radially inward projection, is supported on the driving center and the centering center in a sandwiched fashion, and an outer circumferential surface of the workpiece is finish machined while rotating the workpiece under a condition where the kelly is moved in the radial direction and engages with the through aperture or a radially inward projection of the workpiece within an inner bore of the through aperture or radially inward projection of the workpiece. 3. The apparatus for machining a cylindrical workpiece of claim 2 , wherein a tip end of each the driving center and the centering center is formed with a tapered outer surface, respectively, wherein tapered chamfer surfaces are formed on both inner end surfaces of the workpiece, and the workpiece is supported at its inner end surfaces with the tapered chamfer surfaces engaging the tapered surfaces of the driving center and the centering center. 4. The apparatus for machining a cylindrical workpiece of claim 2 , wherein a tip end of each the driving center and the centering center is formed with a tapered inner surface, respectively, and the workpiece is supported at its outer end surfaces with the outer end surfaces of the workpiece engaging the tapered inner surfaces of the driving center and the centering center. 5. The apparatus for machining a cylindrical workpiece of claim 2 , wherein the workpiece is formed with a through aperture or a radially inward projection for engaging the kelly. 6. The apparatus for machining a cylindrical workpiece of claim 2 , further comprising an index mechanism for indexing the position of the kelly.