Piston ring and method for manufacturing same

What is claimed is: 1. A piston ring, comprising: a ring-shaped substrate; and an amorphous carbon film, coated on a surface of the ring-shaped substrate, wherein the amorphous carbon film is formed using a CVD method, and increasing regions in which an sp 2 /sp 3 ratio that is a ratio of sp 2 bonding to sp a bonding continuously increases and decreasing regions in which the sp 2 /sp 3 ratio continuously decreases are alternately formed from the substrate surface toward a film surface, and the sp 2 /sp 3 ratio continuously changes on borders between the increasing regions and the decreasing regions so that soft films having a low sp 2 /sp 3 ratio and hard films having a high sp 2 /sp 3 ratio are formed in an alternately layered manner; and the decreasing regions are configured to be equal in number to or one region fewer than the increasing regions. 2. The piston ring according to claim 1 , wherein hydrogen content in the amorphous carbon film is equal to or more than 5 atom % in a location having the lowest sp 2 /sp 3 ratio. 3. The piston ring according to claim 2 , wherein the amorphous carbon film is formed on an outer circumferential sliding surface and upper and lower surfaces of the substrate. 4. The piston ring according to claim 1 , wherein the amorphous carbon film is formed on an outer circumferential sliding surface and upper and lower surfaces of the substrate. 5. A method for manufacturing a piston ring, in which the piston ring according to claim 1 is manufactured using a CVD method, the method comprising: forming an amorphous carbon film on a substrate by alternately providing a first step of forming a film under a condition in which a temperature of the substrate rises and a second step of forming a film under a condition in which the temperature of the substrate falls. 6. The method for manufacturing a piston ring according to claim 5 , wherein the CVD method is performed using a plasma CVD apparatus. 7. The method for manufacturing a piston ring according to claim 6 , wherein the plasma CVD apparatus is a PIG plasma CVD apparatus. 8. The method for manufacturing a piston ring according to claim 5 , wherein the amorphous carbon film having distribution of different sp 2 /sp 3 ratios is formed with respect to each substrate at the same time by causing each of a plurality of substrates to have a difference in thermal exhaust ability in the CVD method. 9. The method for manufacturing a piston ring according to claim 5 , wherein the amorphous carbon film having distribution of different sp 2 /sp 3 ratios inside the substrate is formed at the same time by causing the substrate to internally have a difference in thermal exhaust ability in the CVD method. 10. A piston ring, comprising: a ring-shaped substrate; and an amorphous carbon film, coated on a surface of the ring-shaped substrate, wherein the amorphous carbon film is formed using a CVD method, and an ID/IG ratio that is a ratio of a peak area in a D-peak position to a peak area in a G-peak position of a Raman spectrum continuously changes such that high-wavenumber shift regions in which the G-peak position shifts to a high wavenumber and low-wavenumber shift regions in which the G-peak position shifts to a low wavenumber are alternately formed from the substrate surface toward a film surface, and the ID/IG ratio continuously changes on borders between the high-wavenumber shift regions and the low-wavenumber shift regions so that soft films having a low ID/IG ratio and hard films having a high ID/IG ratio are formed in an alternately layered manner; and the low-wavenumber shift regions are configured to be equal in number to or one region fewer than the high-wavenumber shift regions. 11. The piston ring according to claim 10 , wherein hydrogen content in the amorphous carbon film is equal to or more than 5 atom % in a location having the lowest ID/IG ratio. 12. The piston ring according to claim 11 , wherein the amorphous carbon film is formed on an outer circumferential sliding surface and upper and lower surfaces of the substrate. 13. The piston ring according to claim 10 , wherein the amorphous carbon film is formed on an outer circumferential sliding surface and upper and lower surfaces of the substrate. 14. A method for manufacturing a piston ring, in which the piston ring according to claim 10 is manufactured using a CVD method, the method comprising: forming an amorphous carbon film on a substrate by alternately providing a first step of forming a film under a condition in which a temperature of the substrate rises and a second step of forming a film under a condition in which the temperature of the substrate falls.