Optical cable structure and optical cable structure production method

1 . An optical cable structure comprising: connector-equipped optical fibers, derived from an end portion of a sheath of an optical cable, that are accommodated in a tubular member, wherein each of the connector-equipped optical fibers includes: a derivation optical fiber from the end portion of the sheath; and an optical connector disposed at a distal portion of the derivation optical fiber, lengths of at least some of the derivation optical fibers are different from each other, each of the derivation optical fibers includes: a proximal-side optical fiber on an end portion side of the sheath; a distal-side optical fiber on an optical connector side; and a connecting portion connecting the proximal-side optical fiber to the distal-side optical fiber, and the connecting portions are disposed in the tubular member when the connector-equipped optical fibers are accommodated in the tubular member. 2 . The optical cable structure according to claim 1 , wherein lengths of the proximal-side optical fibers extending from the end portion of the sheath are different from each other. 3 . The optical cable structure according to claim 2 , wherein lengths of the distal-side optical fibers are equal to each other. 4 . The optical cable structure according to claim 1 , wherein each of the connecting portions is a fusion-splicing portion that fusion-splices the proximal-side optical fiber and the distal-side optical fiber. 5 . The optical cable structure according to claim 1 , wherein each of the connecting portions is a connector connecting portion mechanically connecting the proximal-side optical fiber to the distal-side optical fiber. 6 . The optical cable structure according to claim 1 , wherein in each of the derivation optical fibers: the proximal-side optical fiber is a multi-core fiber, the distal-side optical fiber is configured by single-core fibers, and the connecting portion optically couples each of cores of the multi-core fiber to a respective one of cores of the single-core fibers. 7 . A method for producing an optical cable structure including connector-equipped optical fibers, the method comprising: terminating an optical connector at a first end portion of each of distal-side optical fibers; leading out proximal-side optical fibers from an end portion of a sheath of an optical cable; connecting a second end portion of each of the distal-side optical fibers to a distal portion of each of the proximal-side optical fibers after the terminating of the optical connector and the leading out of the proximal-side optical fibers to form the connector-equipped optical fibers, wherein the connector-equipped optical fibers: are derived from the end portion of the sheath and accommodated in a tubular member, and each include the optical connector and a derivation optical fiber including one of the proximal-side optical fibers and one of the distal-side optical fibers; and setting one or both of lengths of the proximal-side optical fibers and lengths of the distal-side optical fibers before the connecting of the second end portion such that lengths of at least some derivation optical fibers among the derivation optical fibers derived from the end portion of the sheath are different from each other.