초록 ▼

The invention provides a discontinuous friction stir welding apparatus and welding method having a compact machine head capable of corresponding to a wide usage. In a friction stir welding apparatus provided with a tool (1) having a shoulder portion (1a) with a large diameter and a pin portion (1b)

The invention provides a discontinuous friction stir welding apparatus and welding method having a compact machine head capable of corresponding to a wide usage. In a friction stir welding apparatus provided with a tool (1) having a shoulder portion (1a) with a large diameter and a pin portion (1b) with a small diameter protruding in an axial direction, and welding by inserting the tool to a material to be welded while rotating the tool, the tool, a moving mechanism of the tool and a backing member (5) for the welded material are received in one frame (10). The tool moving mechanism has a main axis motor (2) for rotating the tool, an axial moving apparatus (4, 13a,13b,14) for moving the tool in a direction of a rotation axis, and a welding direction moving apparatus (9, 17) for moving the tool along a weld line of the welded material. Since the apparatus in accordance with the invention is structured such as to weld a short distance in a state of gripping a part of the welded material, it is possible to apply the welding apparatus to the welded material having a complex shape and being hard to be moved.

대표청구항 ▼

1. A friction stir welding method of applying a backing member to a back face of a material to be welded, inserting a tool having a pin portion with a small diameter in a leading end of a shoulder portion with a large diameter to the welded material by said pin portion while rotating the tool, and w

1. A friction stir welding method of applying a backing member to a back face of a material to be welded, inserting a tool having a pin portion with a small diameter in a leading end of a shoulder portion with a large diameter to the welded material by said pin portion while rotating the tool, and welding by utilizing a friction heat and a plastic flow generated between said tool and the welded material, wherein said tool, a moving mechanism of the tool and said backing material are received in one frame, said pin portion is inserted to the welded material while said tool is rotated with holding the welded material between said backing member and said tool, and the welding is carried out by moving only said tool in a weld line direction of the welded material without moving said frame. 2. A friction stir welding method as claimed in claim 1, wherein said pin portion is pulled out from the welded material after a part of the welded material is welded by moving said tool in the weld line direction of the welded material at a desired distance, and the welded material is again welded at a desired distance by moving one of said frame and the welded material, whereby the welded material is discontinuously welded in the weld line direction by repeating the above operation. 3. A friction stir welding method as claimed in claim 1, wherein said tool is rotated by a main axis motor, and said pin portion is inserted to the welded material until an electric current value of said main axis motor reaches a predetermined value. 4. A friction stir welding method of inserting a tool having a shoulder portion and a pin portion to a material to be welded by said pin portion while rotating the too l, and welding by utilizing a friction heat and a plastic flow generated between said tool and the welded material, wherein said welded material is discontinuously welded along a weld line direction of the welded material. 5. A friction stir welding method as claimed in claim 1, wherein a weld length per one time is between 5 and 20 mm. 6. A friction stir welding method as claimed in claim 4, wherein a weld length per one time is between 5 and 20 mm. 7. A friction stir welding apparatus provided with a tool having a shoulder portion with a large diameter and a pin portion with a small diameter protruding in an axial direction, and welding by inserting said tool to a material to be welded while rotating said tool, wherein said tool, a moving mechanism of the tool and a backing member for the welded material are received in one frame. 8. A friction stir welding apparatus as claimed in claim 7, wherein said tool moving mechanism has a main axis motor for rotating said tool, an axial moving apparatus for moving said tool in a direction of a rotation axis, and a welding direction moving apparatus for moving said tool along a weld line of the welded material. 9. A friction stir welding apparatus as claimed in claim 7, wherein a welded material fixing jig for pressing the welded material from a side from which said tool is inserted, and a moving apparatus of the welded material fixing jig are received in said frame. 10. A friction stir welding apparatus as claimed in claim 8, wherein said main axis motor is constituted by any one of a spindle motor, an induction motor and a servo motor. 11. A friction stir welding apparatus as claimed in claim 8, wherein the movements of said tool ac hieved by said axial direction moving apparatus and said welding direction moving apparatus are both carried out by a servo motor. 12. A friction stir welding apparatus as claimed in claim 9, wherein the movements of said fixing jig achieved by said fixing jig moving apparatus is carried out by a servo motor. 13. A friction stir welding apparatus as claimed in claim 8, wherein the movements of said tool achieved by said axial direction moving apparatus and said welding direction moving apparatus are both carried out by a hydrostatic cylinder. 14. A friction stir welding apparatus as claimed in claim 9, wherein the movements of said fixing jig achieved by said fixing jig moving apparatus is carried out by a hydrostatic cylinder. 15. A friction stir welding apparatus as claimed in claim 8, further comprising an electric current detector for detecting an electric current value of said main axis motor, an arithmetic unit for determining an amount of insertion of said tool to the welded material in correspondence to the electric current value of the main axis motor detected by said electric current detector, and a control unit for controlling the amount of insertion of said tool to the welded material. 16. A friction stir welding apparatus as claimed in claim 9, wherein said fixing jig has an I-shaped groove along a weld line of the welded material, and said welding direction moving apparatus is structured such as to move said tool along said I-shaped groove. 17. A friction stir welding apparatus as claimed in claim 7, wherein said frame is formed in a C shape. 18. A friction stir welding apparatus as claimed in claim 7, wherein said frame is mounted to a leading end of a robot arm.