Method for producing a forged crankshaft

1 . A method for producing a forged crankshaft, the crankshaft including: journals that define a center of rotation; crank pins that are eccentric with respect to the journals; and crank arms, each of the crank arms connecting a corresponding one of the journals to a corresponding one of the crank pins, the method comprising: a die forging step, including forming a finish forged blank with flash, the finish forged blank including a shape of the crankshaft, wherein the crank arm has an excess projecting portion at an outer periphery of each of side portions near the crank pin, the excess projecting portion projecting from the outer periphery; a trimming step, including removing the flash from the finish forged blank formed in the die forging step; and an excess projecting portion crushing step, including crushing the excess projecting portion of the crank arm by pressing the crankshaft using a pair of first dies, the crankshaft being obtained by removing the flash in the trimming step. 2 . The method for producing a forged crankshaft according to claim 1 , wherein, in the excess projecting portion crushing step, a second die is abutted against an area in a surface of the crank arm to hold the area, the surface being adjacent to the journal, the area not including areas of the side portions. 3 . The method for producing a forged crankshaft according to claim 2 , wherein, in the excess projecting portion crushing step, the second die is moved in a direction of the pressing with the first dies so as to follow the pressing with the first dies, so that a position at which the second die is abutted against the crank arm is maintained to be constant. 4 . The method for producing a forged crankshaft according to claim 1 , wherein the excess projecting portion crushing step is performed in a coining step in which a shape of the crankshaft is corrected by pressing using dies. 5 . The method for producing a forged crankshaft according to claim 1 , wherein, in the excess projecting portion crushing step, the pressing using the pair of first dies is performed in a direction perpendicular to a direction of eccentricity of the crank pin. 6 . The method for producing a forged crankshaft according to claim 1 , wherein, in the excess projecting portion crushing step, a recess is formed inward of the side portions of the crank arm, in the surface of the crank arm, the surface being adjacent to the journal. 7 . The method for producing a forged crankshaft according to claim 2 , wherein, in the excess projecting portion crushing step, a recess is formed inward of the side portions of the crank arm, in the surface of the crank arm, the surface being adjacent to the journal. 8 . The method for producing a forged crankshaft according to claim 3 , wherein, in the excess projecting portion crushing step, a recess is formed inward of the side portions of the crank arm, in the surface of the crank arm, the surface being adjacent to the journal. 9 . The method for producing a forged crankshaft according to claim 4 , wherein, in the excess projecting portion crushing step, a recess is formed inward of the side portions of the crank arm, in the surface of the crank arm, the surface being adjacent to the journal. 10 . The method for producing a forged crankshaft according to claim 5 , wherein, in the excess projecting portion crushing step, a recess is formed inward of the side portions of the crank arm, in the surface of the crank arm, the surface being adjacent to the journal.