Stranded conductor and method for manufacturing stranded conductor

The invention claimed is: 1. A stranded conductor, comprising: a plurality of filaments stranded together such that the plurality of filaments comprises a plurality of softened filaments made of an aluminum material and identical to one another and has a lay length in a range of from 6.2 times to 15.7 times a conductor diameter of the stranded conductor, wherein the plurality of filaments includes a filament disposed along a center of the stranded conductor, six first filaments disposed around the filament and concentrically with the center, twelve second filaments disposed around the six first filaments and concentrically with the center, and eighteen filaments disposed around the twelve second filaments and concentrically with the center such that the first filaments and the second filaments have an equal lay length, and the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form an inner layer portion, and the eighteen filaments forms an outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has an inner layer lay length P 3 which is determined by Equation (1), P ⁢ ⁢ 3 = P ⁢ ⁢ 1 × P ⁢ ⁢ 2 P ⁢ ⁢ 1 + P ⁢ ⁢ 2 ( 1 ) where P 1 represents an inner layer lay length prior to formation of the outermost layer, P 2 represents an outer layer lay length, and P 3 represents the inner layer lay length in a state in which the outermost layer is formed. 2. The stranded conductor according to claim 1 , wherein the plurality of filaments is formed such that the first filaments and the second filaments have the lay length of 6.4 times the conductor diameter of the stranded conductor or greater. 3. The stranded conductor according to claim 2 , wherein the six first filaments, the twelve second filaments, and the eighteen filaments have an equal lay length. 4. The stranded conductor according to claim 1 , wherein the plurality of filaments is formed such that the lay length is in the range of from 8.7 times to 14.8 times the conductor diameter. 5. The stranded conductor according to claim 4 , wherein the six first filaments, the twelve second filaments, and the eighteen filaments have an equal lay length. 6. The stranded conductor according to claim 1 , wherein the six first filaments, the twelve second filaments, and the eighteen filaments have an equal lay length. 7. The stranded conductor according to claim 1 , wherein the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form the inner layer portion, and the eighteen filaments form the outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has the inner layer lay length in a range of from 8.6 times to 22.0 times an inner layer diameter. 8. The stranded conductor according to claim 7 , wherein the six first filaments, the twelve second filaments, and the eighteen filaments have an equal lay length. 9. The stranded conductor according to claim 1 , wherein the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form the inner layer portion, and the eighteen filaments form the outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has the inner layer lay length in a range of from 12.1 times to 20.7 times an inner layer diameter. 10. The stranded conductor according to claim 1 , wherein the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form the inner layer portion, and the eighteen filaments form the outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has the inner layer lay length in a range of from 8.6 times to 22.0 times an inner layer diameter and that the outermost layer has the outer layer lay length in a range of 6.8 times to 22.7 times the conductor diameter. 11. The stranded conductor according to claim 1 , wherein the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form the inner layer portion, and the eighteen filaments form the outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has the inner layer lay length in a range of from 12.1 times to 20.7 times an inner layer diameter and that the outermost layer has the outer layer lay length in a range of 7.5 times to 18.2 times the conductor diameter. 12. The method for manufacturing a stranded conductor according to claim 11 , wherein the stranding comprises applying a tension in a range of from 1.5 N to 2.5 N to the plurality of filaments. 13. A method for manufacturing a stranded conductor, comprising: softening a plurality of filaments such that a plurality of softened filaments made of an aluminum material and identical to one another is obtained; and stranding the plurality of filaments such that the plurality of filaments includes a filament disposed along a center of the stranded conductor, six first filaments stranded around and concentrically with the center, twelve second filaments stranded around and concentrically with the center, and eighteen filaments stranded around and concentrically with the center, and has a lay length in a range of from 6.2 times to 15.7 times a conductor diameter of the stranded conductor and that the first filaments and the second filaments have an equal lay length, wherein the filament along the center of the stranded conductor, the six first filaments and the twelve second filaments form an inner layer portion, and the eighteen filaments forms an outermost layer disposed outside of and concentrically with the inner layer portion such that the inner layer portion has an inner layer lay length P 3 which is determined by Equation (1),