Manufacturing device for drive plate and manufacturing method for drive plate

The invention claimed is: 1. A manufacturing device for a drive plate that manufactures a drive plate including (i) a plate portion that transfers a drive force and (ii) a ring gear portion provided at an outer periphery of the plate portion, the manufacturing device comprising: a compression punch that compresses a side wall portion of a raw material in an axial direction, the raw material including a bottom surface portion and the side wall portion which is cylindrical and provided to extend upright from an outer peripheral end portion of the bottom surface portion; a compression die disposed to face the compression punch in the axial direction and having a toothed shape formed on an inner peripheral surface of the compression die; and a die that restrains the bottom surface portion, wherein when the compression punch compresses the side wall portion, which is disposed inward of the inner peripheral surface of the compression die, in the axial direction, the compression punch presses the raw material against the compression die, and thereafter the compression die is pushed by the compression punch to form a toothed shape on the side wall portion while both the compression die and the compression punch are relatively moving in the axial direction with respect to the die that restrains the bottom surface portion to form the ring gear portion. 2. The manufacturing device for a drive plate according to claim 1 , wherein an outside diameter of the compression punch is larger than a root diameter of the toothed shape formed on the inner peripheral surface of the compression die. 3. The manufacturing device for a drive plate according to claim 1 , further comprising: a restraint punch that restrains the bottom surface portion of the raw material from a side in which the side wall portion extends upright in the axial direction at a location inward of the side wall portion, wherein: the side wall portion has been formed with a toothed shape in advance so as to include a small-diameter portion formed on an inner side in a radial direction and a large-diameter portion formed on an outer side in the radial direction with respect to the small-diameter portion; and the large-diameter portion of the side wall portion is spaced from an outer peripheral surface of the restraint punch when the compression punch starts compressing the side wall portion in the axial direction. 4. The manufacturing device for a drive plate according to claim 2 , further comprising: a restraint punch that restrains the bottom surface portion of the raw material from a side in which the side wall portion extends upright in the axial direction at a location inward of the side wall portion, wherein: the side wall portion has been formed with a toothed shape in advance so as to include a small-diameter portion formed on an inner side in a radial direction and a large-diameter portion formed on an outer side in the radial direction with respect to the small-diameter portion; and the large-diameter portion of the side wall portion is spaced from an outer peripheral surface of the restraint punch when the compression punch starts compressing the side wall portion in the axial direction. 5. The manufacturing device for a drive plate according to claim 3 , wherein the outer peripheral surface of the restraint punch is a smooth surface having generally the same diameter over the entire periphery. 6. The manufacturing device for a drive plate according to claim 4 , wherein the outer peripheral surface of the restraint punch is a smooth surface having generally the same diameter over the entire periphery. 7. A manufacturing method for a drive plate for manufacturing a drive plate including (i) a plate portion that transfers a drive force and (ii) a ring gear portion provided at an outer periphery of the plate portion, the manufacturing method comprising: a compression process in which a compression punch configured to compress a side wall portion of a raw material in an axial direction compresses the side wall portion of the raw material in the axial direction, the raw material including a bottom surface portion and the side wall portion which is cylindrical and provided to extend upright from an outer peripheral end portion of the bottom surface portion, wherein in the compression process, the side wall portion is disposed on an inner side of an inner peripheral surface of a compression die disposed to face the compression punch in the axial direction and having a toothed shape formed on the inner peripheral surface, the compression punch presses the raw material against the compression die, and thereafter the compression die is pushed by the compression punch to form a toothed shape on the side wall portion while both the compression die and the compression punch are relatively moving in the axial direction with respect to the die that restrains the bottom surface portion to form the ring gear portion. 8. The manufacturing method according to claim 7 , wherein the ring gear portion is shaped to be meshed with a gear of a starter motor. 9. The manufacturing device for a drive plate according to claim 1 , wherein the compression punch and the die that restrains the bottom surface portion are shaped such that the ring gear portion becomes shaped to be meshed with a gear of a starter motor.