Bi-metallic sprocket, and method of making same

What is claimed is: 1. A sprocket comprising: a tooth member including one or more teeth formed of an iron-based material; and a circular disk that is formed of a light metal and that supports the tooth member thereon, wherein the tooth member is abutted on an outer peripheral surface of the circular disk, and is dissimilar-metal welded to the circular disk by laser welding or electronic beam welding in which a laser or electronic beam enters a clearance between circular disk and the tooth member, said welding using only materials of the circular disk and the tooth member, wherein a weld bead, having a thickness in a radial direction of the circular disk, is formed internally inside of the sprocket at the clearance between the circular disk and the tooth member, and the iron-based material of the tooth member and the light metal of the circular disk are blended together in the weld bead. 2. The sprocket according to claim 1 , comprising more than one said tooth member provided in a plurality of positions, wherein each of the tooth members is formed as a separate body, and welded to the circular disk. 3. The sprocket according to claim 2 , wherein a welded junction between the circular disk and the tooth member has a distance in a radial direction of the circular disk. 4. The sprocket according to claim 3 , wherein welded parts between the circular disk and the tooth member are formed on a plurality of circles which are coaxial to the sprocket and which have mutually different diameters. 5. The sprocket according to claim 2 , wherein welded parts between the circular disk and the tooth member are formed on a plurality of circles which are coaxial to the sprocket and which have mutually different diameters. 6. The sprocket according to claim 2 , wherein: the tooth member and the circular disk are punched out by press working; the tooth member and the circular disk are arranged in orientations in which punching directions in the press working correspond with each other; and the laser or electronic beam is emitted from a side of shear drops in the press working. 7. The sprocket according to claim 1 , wherein a welded junction between the circular disk and the tooth member has a distance in a radial direction of the circular disk. 8. The sprocket according to claim 7 , wherein welded parts between the circular disk and the tooth member are formed on a plurality of circles which are coaxial to the sprocket and which have mutually different diameters. 9. The sprocket according to claim 7 , wherein: the tooth member and the circular disk are punched out by press working; the tooth member and the circular disk are arranged in orientations in which punching directions in the press working correspond with each other; and the laser or electronic beam is emitted from a side of shear drops in the press working. 10. The sprocket according to claim 1 , wherein welded parts between the circular disk and the tooth member are formed on a plurality of circles which are coaxial to the sprocket and which have mutually different diameters. 11. The sprocket according to claim 10 , wherein: the tooth member and the circular disk are punched out by press working; the tooth member and the circular disk are arranged in orientations in which punching directions in the press working correspond with each other; and the laser or electronic beam is emitted from a side of shear drops in the press working. 12. The sprocket according to claim 1 , wherein: the tooth member and the circular disk are punched out by press working; the tooth member and the circular disk are arranged in orientations in which punching directions in the press working correspond with each other; and the laser or electronic beam is emitted from a side of shear drops in the press working. 13. The sprocket according to claim 1 , wherein: the tooth member comprises an annular member having a plurality of the teeth integrally formed thereon; and the tooth member is formed in an annular shape by punching a plate material by one of stamping and press-working. 14. The sprocket according to claim 13 , wherein: the circular disk is formed in a disk shape by punching a plate material with a die by one of stamping and press-working; and and plate thickness of the tooth member is substantially equal to plate thickness of the circular disk. 15. The sprocket according to claim 14 , wherein a number of the weld beads corresponds to a number of the teeth. 16. A sprocket comprising: a plurality of individual teeth formed of a ferrous material; and a circular disk that is formed of a light metal and that supports the teeth thereon, the circular disk having an outer periphery with a plurality of spaced-apart notches therein; wherein each of the teeth is configured to fit into one of the notches, and is abutted into said one of the notches on an outer peripheral surface of the circular disk, and is dissimilar-metal welded to the circular disk by laser welding or by electronic beam welding in which a laser or electronic beam enters a clearance between each of the teeth and the circular disk, said welding using only materials of the circular disk and the teeth, and wherein a weld bead is formed internally inside of the sprocket between the circular disk and each of the plurality of individual teeth, and the ferrous material of the teeth and the light metal of the circular disk are blended together in the weld bead. 17. The sprocket according to claim 16 , wherein welded parts between the circular disk and the each of the teeth are formed on a plurality of circles which are coaxial to the sprocket and which have mutually different diameters. 18. The sprocket according to claim 16 , wherein: the teeth and the circular disk are punched out by press working; the teeth and the circular disk are arranged in orientations in which punching directions in the press working correspond with each other; and the laser or electronic beam is emitted from a side of shear drops in the press working. 19. A method of making a sprocket, comprising the steps of: fitting a tooth member including one or more teeth and formed from a ferrous material into abutting relation with an outer peripheral portion of a circular disk formed from a light metal comprising aluminum, in a manner such that punching directions of stamping or press-working of the tooth member and the circular disk correspond with each other; and welding the tooth member to the circular disk by laser welding or by electronic beam welding in which a laser or electronic beam enters a clearance between the tooth member and the circular disk, said welding using only materials of the circular disk and the tooth member in a manner such that a weld bead, having a thickness in a radial direction of the circular disk, is formed internally inside of the sprocket at the clearance between the circular disk and the tooth member, and the ferrous material of the tooth member and the light metal of the circular disk are blended together in the weld bead. 20. The method of making a sprocket according to claim 19 , wherein a number of the weld beads corresponds to a number of the teeth.