Method of setting tappet clearance and device therefor

What is claimed is: 1. A method of setting tappet clearance by which a tappet clearance between an end surface of an adjusting screw screwed into an acting end of a rocker arm, and a valve stem end, is set to a prescribed clearance, the method comprising: starting a return rotation of the adjusting screw from a position where the end surface of the adjusting screw is abutting on the valve stem end due to a weight of the acting end of the rocker arm, and a pressing torque on the valve stem end has a zero value, wherein the end surface continuously abuts the valve stem end during the return rotation; during the return rotation, continuously measuring an undulation movement amount defined as an oscillating movement of the adjusting screw in an axial direction of the adjusting screw due to a processing distortion of the end surface at a point of contact with the valve stem end as the adjusting screw rotates, and continuously calculating a screw return movement amount defined as a movement of the adjusting screw in the axial direction based on a screw pitch and a rotation return angle of the adjusting screw during the return rotation; and ending the return rotation when a sum of the undulation movement amount and the screw return movement amount reaches the prescribed clearance. 2. The method of setting tappet clearance according to claim 1 , wherein the return rotation is executed via a screwdriver, and the undulation movement amount is measured at the screwdriver. 3. The method of setting tappet clearance according to claim 2 , wherein the screwdriver is driven by a motor, and the undulation movement amount is measured based on an output of a rotation sensor of the motor. 4. The method of setting tappet clearance according to claim 2 , wherein the screwdriver comprises a measuring object configured to rotate integrally with the screwdriver, the measuring object including a plane surface extending orthogonal to the axial direction, and the undulation movement amount is measured based on an amount of movement of the plane surface in the axial direction as measured by a length measuring sensor. 5. The method of setting tappet clearance according to claim 4 , wherein the length measuring sensor is a laser displacement meter. 6. A device that sets tappet clearance by which a tappet clearance between an end surface of an adjusting screw screwed into an acting end of a rocker arm, and a valve stem end, is set to a prescribed clearance, the device comprising: a screwdriver configured to rotate the adjusting screw; a return rotation starting unit configured to start a return rotation of the adjusting screw via the screwdriver, from a position where the end surface of the adjusting screw is abutting on the valve stem end due to a weight of the acting end of the rocker arm, and a pressing torque on the valve stem end has a zero value, wherein the end surface continuously abuts the valve stem end during the return rotation; a measuring unit configured to, during the return rotation, continuously measure an undulation movement amount defined as an oscillating movement of the adjusting screw in an axial direction of the adjusting screw due to a processing distortion of the end surface at a point of contact with the valve stem end as the adjusting screw rotates; a return movement amount calculating unit configured to continuously calculate a screw return movement amount defined as a movement of the adjusting screw in the axial direction based on a screw pitch and a rotation return angle of the adjusting screw during the return rotation; and a return rotation ending unit configured to end the return rotation when a sum of the undulation movement amount and the screw return movement amount reaches the prescribed clearance. 7. The device that sets tappet clearance according to claim 6 , further comprising an electric driver motor configured to rotate the screwdriver, the electric driver motor including a rotation sensor, wherein the undulation movement amount is measured at the screwdriver via the rotation sensor. 8. The device that sets tappet clearance according to claim 6 , further comprising a length measuring sensor, wherein the screwdriver comprises a measuring object configured to rotate integrally with the screwdriver, the measuring object including a plane surface extending orthogonal to the axial direction, and the undulation movement amount is measured based on an amount of movement of the plane surface in the axial direction as measured by the length measuring sensor. 9. The device that sets tappet clearance according to claim 8 , wherein the length measuring sensor is a laser displacement meter.