Measuring method and measuring device for measuring rotational angle of servo motor

The invention claimed is: 1. A measuring method for measuring a rotational angle of a servo motor in a spot welding gun to which a movable electrode driven by the servo motor and an opposite electrode disposed in opposing relationship to the movable electrode are mounted, the measuring method comprising steps of: a first rotational angle acquisition step that, in a state in which a reference movable electrode and a reference opposite electrode are mounted to the spot welding gun, acquires, as a first rotational angle, a rotational angle of the servo motor when the reference movable electrode is brought into contact with the reference opposite electrode by driving the servo motor; a second rotational angle acquisition step that acquires, as a second rotational angle, a rotational angle of the servo motor when the reference movable electrode is pushed in with respect to the reference opposite electrode with a predetermined pressing force; a rotational angle correction amount acquisition step that acquires, as a rotational angle correction amount, a deviation between the first rotational angle and the second rotational angle; a third rotational angle acquisition step that, in a state in which a movable electrode to be measured and an opposite electrode to be measured are mounted to the spot welding gun, acquires, as a third rotational angle, a rotational angle of the servo motor when the movable electrode to be measured is pushed in with respect to the opposite electrode to be measured with a pressing force substantially the same as the pressing force when the second rotational angle is acquired; and a fourth rotational angle acquisition step that acquires a fourth rotational angle by correcting the third rotational angle with the rotational angle correction amount. 2. The measuring method according to claim 1 further comprising a step that obtains a deviation between the first rotational angle and the fourth rotational angle after the fourth rotational angle acquisition step. 3. The measuring method according to claim 1 , wherein at the first rotational angle acquisition step: a current or an estimated disturbance torque of the servo motor is monitored; and when the current or the estimated disturbance torque exceeds a predetermined threshold value, it is determined that the reference movable electrode contacts the reference opposite electrode, so that the reference movable electrode is stopped and a rotational angle of the servo motor is acquired as the first rotational angle. 4. The measuring method according to claim 1 , wherein at the first rotational angle acquisition step: a predetermined torque limit is applied to the servo motor; and a rotational angle of the servo motor when the reference movable electrode is stopped by the torque limit as a result of the reference movable electrode contacting the reference opposite electrode is acquired as the first rotational angle. 5. The measuring method according to claim 1 , wherein at the first rotational angle acquisition step: an image of at least one of the reference movable electrode and the reference opposite electrode is successively imaged at an imaging position; and based on the imaged image, a rotational angle of the servo motor when the reference movable electrode contacts the reference opposite electrode is acquired as the first rotational angle. 6. The measuring method according to claim 1 , wherein the predetermined pressing force is made such that the current or the estimated disturbance torque is sufficiently larger than a load on the servo motor which is caused when the movable electrode is moved. 7. A measuring device for measuring a rotational angle of a servo motor in a spot welding gun to which a movable electrode driven by the servo motor and an opposite electrode disposed in opposing relationship to the movable electrode are mounted, the measuring device comprising: a first rotational angle acquisition unit that, in a state in which a reference movable electrode and a reference opposite electrode are mounted to the spot welding gun, acquires, as a first rotational angle, a rotational angle of the servo motor when the reference movable electrode is brought into contact with the reference opposite electrode by driving the servo motor; a second rotational angle acquisition unit that acquires, as a second rotational angle, a rotational angle of the servo motor when the reference movable electrode is pushed in with respect to the reference opposite electrode with a predetermined pressing force; a rotational angle correction amount acquisition unit that acquires, as a rotational angle correction amount, a deviation between the first rotational angle and the second rotational angle; a third rotational angle acquisition unit that, in a state in which a movable electrode to be measured and an opposite electrode to be measured are mounted to the spot welding gun, acquires, as a third rotational angle, a rotational angle of the servo motor when the movable electrode to be measured is pushed in with respect to the opposite electrode to be measured with a pressing force substantially the same as the pressing force when the second rotational angle is acquired; and a fourth rotational angle acquisition unit that acquires a fourth rotational angle by correcting the third rotational angle with the rotational angle correction amount. 8. The measuring device according to claim 7 further comprising a deviation calculating unit that acquires a deviation between the first rotational angle and the fourth rotational angle after the fourth rotational angle is acquired. 9. The measuring device according to claim 7 , wherein the first rotational angle acquisition unit monitors a current or an estimated disturbance torque of the servo motor, and when the current or the estimated disturbance torque exceeds a predetermined threshold value, determines that the reference movable electrode contacts the reference opposite electrode, thereby stopping the reference movable electrode and acquiring a rotational angle of the servo motor as the first rotational angle. 10. The measuring device according to claim 7 , wherein the first rotational angle acquisition unit applies a predetermined torque limit to the servo motor, and acquires, as the first rotational angle, a rotational angle of the servo motor when the reference movable electrode is stopped by the torque limit as a result of the reference movable electrode contacting the reference opposite electrode. 11. The measuring device according to claim 7 , wherein the first rotational angle acquisition unit further comprises an imaging unit that successively images, at an imaging position, an image of at least one of the reference movable electrode and the reference opposite electrode, and wherein based on the imaged image, the first rotational angle acquisition unit acquires, as the first rotational angle, a rotational angle of the servo motor when the reference movable electrode contacts the reference opposite electrode. 12. The measuring device according to claim 7 , wherein the predetermined pressing force is made such that the current or the estimated disturbance torque is sufficiently larger than a load on the servo motor which is caused when the movable electrode is moved.