Method of treating composite piston pin and surface treated composite piston pin

What is claimed is: 1. A method of treating a composite piston pin, comprising: preparing the composite piston pin of which at least a surface layer includes a composite material including a reinforcing fiber and a resin; improving roughness by processing the at least a surface layer of the composite piston pin; and forming a coating layer on the at least a surface layer processed to reduce a friction coefficient of the composite piston pin, wherein the preparing includes: a first rolling step of rolling a first prepreg including a reinforcing fiber and a resin to enclose an outside surface of a cylindrical mold; a second rolling step of rolling a second prepreg including a reinforcing fiber having elasticity higher than that of the reinforcing fiber of the first prepreg and a resin to enclose an outside surface of the first prepreg; and a molding step of putting the first prepreg and the second prepreg rolled on the cylindrical mold in an oven and integrally molding the first prepreg and the second prepreg, wherein the second prepreg configured to include the reinforcing fiber aligned in parallel with a longitudinal direction of the composite piston pin, and wherein the first prepreg includes: a first layer configured to include the reinforcing fiber aligned perpendicular to the reinforcing fiber of the second prepreg; a second layer configured to include the reinforcing fiber aligned in parallel with a longitudinal direction of the composite piston pin, and wherein a ratio between a thickness of the rolled first prepreg and a thickness of the rolled second prepreg is within range of 7:3 to 4:6. 2. The method of claim 1 , wherein the improving includes: a grinding step of grinding the at least a surface layer of the composite piston pin; a first polishing step of polishing the ground at least a surface layer of the composite piston pin using a polishing solution having Ra equal to or less than 6 μm; and a second polishing step of polishing the at least a surface layer of the composite piston pin using a polishing solution having Ra equal to or less than 1 μm. 3. The method of claim 1 , wherein the forming of the coating layer includes: a first coating step of depositing a bonding layer made of Cr or Ti on the at least a surface layer; a second coating step of depositing a support layer made of CrN or WC on the bonding layer; and a third coating step of depositing a functional layer made of (SiO)-diamond like carbon (DLC) on the support layer. 4. The method of claim 1 , wherein the forming of the coating layer is performed at a temperature of 100 to 240° C.