Method for manufacturing cylindrical ring member, bearing, clutch, vehicle, and machine

The invention claimed is: 1. A method of manufacturing a cylindrical ring member comprising: a step of forming a metal intermediate material having a cylindrical portion; and a chamfering step by cold forging in which a normal chamfer portion is formed on an axial end peripheral edge of the cylindrical portion by pressing a radial end portion of an axial end surface of the cylindrical portion against an annular chamfering surface provided in a mold configuring a mold device, wherein the chamfering step is performed by cold forging in a state where a preliminary chamfer portion, of which a width dimension in a radial direction is larger than a width dimension of the normal chamfer portion in the radial direction, is formed on the axial end peripheral edge of the cylindrical portion, wherein the mold device further includes a second mold having a ring-shaped holding surface arranged coaxially with the chamfering surface of the mold and adjacent to the chamfering surface of the mold in the radial direction, wherein the chamfering step by cold forging is performed by pressing the radial end portion of the axial end surface of the cylindrical portion in an axial direction against the chamfering surface, and pressing a portion, which is adjacent to the radial end portion in the radial direction, of the axial end surface of the cylindrical portion in the axial direction against the holding surface, and wherein when performing the chamfering step by cold forging, the holding surface is initially brought into contact with a radial intermediate portion of the axial end surface of the cylindrical portion. 2. The method of manufacturing the cylindrical ring member according to claim 1 , wherein when performing the chamfering step by cold forging, the holding surface is initially brought into contact with the radial intermediate portion of the axial end surface of the cylindrical portion by arranging the holding surface closer to the axial end surface of the cylindrical portion in the axial direction than the chamfering surface of the mold. 3. The method of manufacturing the cylindrical ring member according to claim 2 , wherein at a final stage of the chamfering step by cold forging, axial positions of the holding surface and an axial edge of the chamfering surface of the mold coincide with each other. 4. The method of manufacturing the cylindrical ring member according to claim 1 , wherein processing for forming the preliminary chamfer portion and the preliminary chamfer portion is formed during the forming of the intermediate material by cold forging. 5. A method of manufacturing a bearing comprising an outer ring and an inner ring, wherein the outer ring and/or the inner ring are/is manufactured by the method of manufacturing the cylindrical ring member according to claim 1 . 6. A method of manufacturing a clutch comprising an outer ring and an inner ring, wherein the outer ring and/or the inner ring are/is manufactured by the method of manufacturing the cylindrical ring member according to claim 1 . 7. A method of manufacturing a vehicle comprising a bearing, wherein the bearing is manufactured by the method of manufacturing the bearing according to claim 5 . 8. A method of manufacturing a vehicle comprising a clutch, wherein the clutch is manufactured by the method of manufacturing the clutch according to claim 6 . 9. A method of manufacturing a machine comprising a bearing, wherein the bearing is manufactured by the method of manufacturing the bearing according to claim 5 . 10. A method of manufacturing a machine comprising a clutch, wherein the clutch is manufactured by the method of manufacturing the clutch according to claim 6 .