Rolling die and method for manufacturing same

The invention claimed is: 1. A rolling die comprising: a tool base material that is made of steel and has a molded surface on which a plurality of working teeth is formed; wherein the tool base material includes a nitride layer in which nitrogen is diffused, the nitride layer being disposed to reach a position that is 20 to 70 μm in depth from the molded surface; wherein the molded surface has a surface hardness of at least 1100 HV; wherein the rate of depth change of the nitride layer from crests of the working teeth to roots of the working teeth is not higher than 30%; wherein the compressive residual stress of the molded surface is −1500 to −1000 MPa; and wherein an oxide film is formed on a portion of the nitride layer that is positioned 0.5 to 5 μm deep from the molded surface, the oxide film being mainly made of Fe 3 O 4 that is obtained by oxidizing the tool base material. 2. The rolling die according to claim 1 , wherein iron oxide of the oxide film includes only Fe 3 O 4 . 3. A rolling die manufacturing method for manufacturing a rolling die including a tool base material that is made of steel and has a molded surface on which a plurality of working teeth is formed, the rolling die manufacturing method comprising: a nitriding step of forming a nitride layer by performing a gas nitriding process or a radical nitriding process on the molded surface in such a manner that the surface hardness of the molded surface is at least 1100 HV and that the depth of the nitride layer from the molded surface is 20 to 70 μm; and a shot peening step of imparting compressive residual stress to the molded surface by performing a shot peening process on the molded surface that has been nitrided in the nitriding step; and an oxidation step of forming an oxide film on the molded surface by performing an alkaline blackening process after the shot peening step, the oxide film being mainly made of Fe 3 O 4 , the alkaline blackening process oxidizing the tool base material by immersing the tool base material in an alkaline aqueous solution at a temperature of 130 to 160° C. 4. The rolling die manufacturing method according to claim 3 , wherein the shot peening and the oxidation step are performed under conditions where the compressive residual stress of the molded surface is −1500 to −1000 MPa after the oxidation step.