Friction stir welding method

The invention claimed is: 1. A friction stir welding method for joining two metal members by a rotary tool having a coupling portion to be coupled to a rotary shaft of a friction stirring apparatus and a stirring pin extending downward from, coaxial with, and tapering off with increasing distance from the coupling portion, comprising steps of: butting in which the two metal members are butted with each other at an angle to form a butted portion; auxiliary member arranging in which an auxiliary member is arranged along an inner corner of the two metal members formed in the butting step, wherein the auxiliary member is metal and is separate from the two metal members, and wherein a width of the auxiliary member is larger than a diameter of a tip of the stirring pin and smaller than a diameter of the coupling portion; and inner corner joining in which only the stirring pin in rotation is inserted in the auxiliary member and the inner corner to carry out friction stirring in the butted portion to make an integrated plasticized region made from the two metal members and the auxiliary member through plasticization of the two metal members and the auxiliary member while only the stirring pin is in contact with the auxiliary member and the two metal members. 2. The friction stir welding method according to claim 1 further comprising a step of outer corner joining in which the butted portion is applied with friction stir welding along an outer corner side of the metal members. 3. The friction stir welding method according to claim 2 , wherein a plasticized region formed in the outer corner joining step is overlapped with a plasticized region formed in the inner corner joining step. 4. The friction stir welding method according to claim 1 further comprising a step of outer corner joining in which the butted portion is applied with welding along an outer corner of the metal members. 5. The friction stir welding method according to claim 4 , wherein a weld metal formed in the outer corner welding step is overlapped with a plasticized region formed in the inner corner welding step. 6. The friction stir welding method according to claim 1 , wherein, in the butting step, a side face of one of the metal members is butted with an end face of the other of the metal members, and in a case where an inner corner has an angle α formed by the side face of one of the metal members and a side face of the other of the metal members, in the inner corner welding step, a rotation center axis of the rotary tool inserted through an intersection line of the side faces is positioned between the side face of one of the metal members and an imaginary reference plane that runs through the intersection line and has an angle of α/2 with respect to the side faces. 7. A friction stir welding method for joining two metal members having faces in different shapes to be butted by a rotary tool having a coupling portion to be coupled to a rotary shaft of a friction stirring apparatus and a stirring pin extending downward from, coaxial with, and tapering off with increasing distance from the coupling portion, comprising steps of: butting in which one of the two metal members is butted with the other of the metal members to form a butted portion; auxiliary member arranging in which an auxiliary member is arranged on the butted portion along a circumferential direction of the other of the metal members to cover an inner corner of the metal members by the auxiliary member, wherein the auxiliary member is metal and is separate from the two metal members, and wherein a width of the auxiliary member is larger than a diameter of a tip of the stirring pin and smaller than a diameter of the coupling portion; and inner corner joining in which only the stirring pin in rotation is inserted in the auxiliary member and the inner corner to carry out friction stirring in the butted portion along the circumferential direction of the other of the metal members to make an integrated plasticized region made from the two metal members and the auxiliary member while only the stirring pin is in contact with the auxiliary member and the two metal members. 8. The friction stir welding method according to claim 7 , wherein the metal members have a plate shape, and an upper face of one of the metal members is butted with a lower face of the other of the metal members in the butting step. 9. The friction stir welding method according to claim 7 , wherein one of the metal members has a plate shape and the other of the metal members has a columnar shape, and an upper face of one of the metal members is butted with an end face of the other of the metal members in the butting step. 10. The friction stir welding method according to claim 7 , wherein one of the metal members has a plate shape and the other of the metal members has a tubular shape, and an upper face of one of the metal members is butted with an end face of the other of the metal members in the butting step. 11. The friction stir welding method according to claim 7 , wherein one of the metal members has a plate shape and the other of the metal members has a cylindrical shape, and an upper face of one of the metal members is butted with an end face of the other of the metal members in the butting step. 12. The friction stir welding method according to claim 7 , wherein one of the metal members is formed with a through hole, and the other of the metal members covers the through hole in the butting step. 13. The friction stir welding method according to claim 7 , wherein one of the metal members is formed with a through hole, and the through hole is made to communicate with a hollow portion of the other of the metal members in the butting step. 14. A friction stir welding method for joining two metal members by a rotary tool having a coupling portion to be coupled to a rotary shaft of a friction stirring apparatus and a stirring pin extending downward from, coaxial with, and tapering off with increasing distance from the coupling portion, comprising steps of: butting in which a side face of one of the two metal members is butted with an end face of the other of the metal members to form a butted portion for forming a joined metal member having a T-shape in front view; auxiliary member arranging in which an auxiliary member is arranged on at least one inner corner of the joined metal member to cover the inner corner by the auxiliary member, wherein the auxiliary member is metal and is separate from the two metal members, and wherein a width of the auxiliary member is larger than a diameter of a tip of the stirring pin and smaller than a diameter of the coupling portion; and inner corner joining in which only the stirring pin in rotation is inserted in the auxiliary member and the inner corner to carry out friction stirring in the butted portion to make an integrated plasticized region made from the two metal members and the auxiliary member while only the stirring pin in contact with the auxiliary member and the two metal members. 15. The friction stir welding method according to claim 14 , wherein, in the auxiliary member arranging step, two inner corners of the joined metal member are arranged with the auxiliary members respectively to cover each inner corner by the auxiliary member, and the joining step includes steps of first joining in which one of the two inner corners of the joined metal member is applied with friction stirring and second joining in which the other of the inner corners is applied with friction stirring, wherein, in the second joining step, friction stirring is carried out while the stirring pin is inserted into a