Method for manufacturing cylindrical body having different diameters by cold forging

What is claimed is: 1. A method for manufacturing, by cold forging, a multi-diameter tubular body having a forward end and an axially extending through hole, the multi-diameter tubular body including a small-diameter hole portion having a small inside diameter and a large-diameter hole portion having a relatively large inside diameter, which are coaxially arranged rearward from the forward end of the multi-diameter tubular body, the multi-diameter tubular body further having a rearward-facing annular ledge surface tapering forward and located at a boundary between the small-diameter hole portion and the large-diameter hole portion, the method comprising: providing a columnar starting material having a rear end surface; subjecting the starting material to one or a plurality of forming steps to form a preliminary hole for the large-diameter hole portion in the rear end surface of the columnar starting material; thrusting a deep hole forming punch into the preliminary hole, the deep hole forming punch having a forward end surface and an annular inclined surface which is located in a region of the forward end surface extending along an outer circumference of the forward end surface and which is inclined toward a center, the deep hole forming punch further having a protrusion which is located coaxially at the center of the forward end surface and inward of the annular inclined surface, the protrusion protruding forward and having a predetermined outside diameter, the annular inclined surface of the deep hole forming punch forming an annular surface which is to become the rearward-facing annular ledge surface, and the protrusion of the deep hole forming punch forming a depression inward of the annular surface; and driving a punch for punching into a bottom surface of the large-diameter hole portion so as to punch out the bottom surface of the large-diameter hole portion forming the small-diameter hole portion and leaving the rearward-facing annular ledge surface, the method being characterized in that the outside diameter of the protrusion of the deep hole forming punch is smaller than the inside diameter of the small-diameter hole portion. 2. The method for manufacturing a multi-diameter tubular body by cold forging according to claim 1 , wherein, when the punch for punching is driven, an outer circumferential surface of the punch for punching is guided by an inner circumferential surface of the large-diameter hole portion formed through deep hole forming by the deep hole forming punch. 3. The method for manufacturing a multi-diameter tubular body by cold forging according to claim 1 , wherein the punch for punching has a communication hole extending therethrough for establishing communication between a forward end surface thereof and a rear region thereof so as to prevent the forward end surface of the punch from closing the depression formed by the protrusion. 4. The method for manufacturing a multi-diameter tubular body by cold forging according to claim 2 , wherein the punch for punching has a communication hole extending therethrough for establishing communication between a forward end surface thereof and a rear region thereof so as to prevent the forward end surface of the punch from closing the depression formed by the protrusion.