Weld line-detecting method and industrial robot

What is claimed is: 1. A weld line-detecting method for fillet welding the weld-line detecting method comprising: measuring first angle information when a contactor of an industrial robot is not in contact with a surface of a welding object, wherein (i) the industrial robot includes a welding torch and an angle sensor having the contactor, (ii) the angle sensor is attached to the welding torch, and (iii) the first angle information indicating a tilted direction of the contactor with respect to the surface of welding object when the contactor is not in contact with the welding object; moving the welding torch in a first direction toward the welding object so that the contactor is in contact with the welding object; measuring second angle information when the contactor is in contact with the surface of the welding object, wherein the second angle information is different from the first angle information, and the second angle information indicates a relative angle between (i) a tilted direction of the contactor with respect to the surface of the welding object when the contactor is in contact with the welding object and (ii) the tilted direction of the contactor with respect to the surface of the welding object when the contactor is not in contact with the welding object; making the industrial robot move the welding torch in a second direction based on the first angle information and the second angle information, wherein a combination of the movement of the welding torch in the first direction and the movement of the welding torch in the second direction causes the relative angle to become zero; and causing the welding torch to move along the surface of the welding object toward a fillet part of the welding object in a third direction perpendicular to the first direction as a result of a combination of (i) the movement of the welding torch in the first direction and (ii) the movement of the welding torch in the second direction; and causing the industrial robot to detect that the contactor arrives at the fillet part of the welding object when the contactor is pressed in an axial direction of the contactor. 2. The weld line-detecting method of claim 1 , further comprising, stopping, after the detecting step, a movement of the welding torch. 3. The weld line-detecting method of claim 2 , further comprising, after the stopping the movement of the welding torch, releasing a pressed state of the contactor by moving the welding torch by a pressed amount of the contactor in a direction opposite to a pressed direction of the contactor. 4. The weld line-detecting method of claim 1 , wherein the angle sensor includes a sensor section for detecting an angle of the contactor, the angle sensor includes a central processing unit for periodically reading the angle of the contactor detected by the angle sensor, and the weld line-detecting method further comprises stopping a movement of the welding torch when the contactor comes into contact with the welding object to make the angle of the contactor larger than a predetermined angle. 5. The weld line-detecting method of claim 1 , wherein the angle sensor further includes a radio communication section for angle sensor use for outputting angle information of the contactor and information indicating that the contactor is pressed, the industrial robot includes a manipulator to which the welding torch is attached, a robot controller for controlling an operation of the manipulator, and a teaching device for communicating with the robot controller, and the robot controller acquires information output from the radio communication section for angle sensor use via the teaching device or directly from the angle sensor. 6. The weld line-detecting method of claim 5 , wherein the teaching device further includes an attachable/detachable radio communication section for teaching device use, the teaching device receives information output from the angle sensor via the radio communication section for teaching device use, and the teaching device transmits the information received from the angle sensor to the robot controller. 7. The weld line-detecting method of claim 1 , wherein the moving the welding torch in a first direction is performed based on an operation program stored in a controller of the industrial robot. 8. The weld line-detecting method of claim 1 , wherein the moving the welding torch in a first direction is performed by a manual operation of the industrial robot by a worker using the teaching device connected to the industrial robot. 9. The weld line-detecting method of claim 1 , wherein in a state where a nozzle and a feed chip are detached from the welding torch, instead of the feed chip, the angle sensor is attached to the welding torch. 10. The weld line-detecting method of claim 1 , wherein a peripheral dimension of the angle sensor to be attached to the welding torch is not greater than a peripheral dimension of a nozzle to be attached to the welding torch. 11. The weld line-detecting method of claim 1 , wherein the angle sensor includes a sensor section for detecting an angle of the contactor, the angle sensor includes a central processing unit for periodically reading the angle of the contactor detected by the angle sensor, and a movement of the welding torch is stopped when an angle of the contactor becomes a predetermined angle or larger.