Multi-articulated manipulator

What is claimed is: 1. A multi-articulated manipulator comprising: a plurality of hollow outer shells, grasping members comprising a pair of claw members, and a plurality of power-transmission shafts to actuate the plurality of outer shells and the grasping members, wherein the plurality of outer shells comprise a foremost outer shell having a first end and a second end, the second end connected to the grasping members and a basement outer shell articulatedly connected to the first end of the foremost outer shell, wherein the plurality of power-transmission shafts are inserted in the basement outer shell and the foremost outer shell, and comprising a pair of claw power-transmission shafts operated independently from each other to actuate the pair of claw members of the grasping members, and wherein the claw members are configured to be operated independently from each other by respective independent operation of each of the claw power-transmission shafts around a first fulcrum pin defining a first fulcrum and fastened to the second end of the foremost outer shell in a first diametrical direction with respect to the second end of the foremost outer shell, and further comprising a first spring having a first end and a second end, the first end connected to a first one of the claw members and a second end connected to a second one of the claw members, the first spring extending around the first fulcrum to energize a tensile force to urge the claw members towards a closed position. 2. The multi-articulated manipulator defined in the claim 1 , further comprising a first articulation joint operatively connecting the claw members of the grasping members to the second end of the foremost outer shell, and a second articulation joint articulatedly connecting the foremost outer shell to the basement outer shell. 3. The multi-articulated manipulator defined in the claim 1 , wherein a base portion of the claw members comprises a cylindrical boss portion having the first fulcrum at the center thereof, and further comprising a spring connected between a first fixed pin held at an end of the spring to lie on a cylindrical surface of the boss portion and a second fixed pin held at another end of the spring and secured inside the foremost outer shell, the spring having a tensile force that pulls the claw members towards one another. 4. The multi-articulated manipulator defined in the claim 1 , further comprising a second fulcrum pin fastened in a second diametrical direction with respect to respective joints between the foremost outer shell and the basement outer shell defining a second fulcrum, the foremost outer shell being connected via the second fulcrum pin to the basement outer shell so as to bend in a single direction around the second fulcrum. 5. The multi-articulated manipulator defined in the claim 4 , further comprising a second spring mounted across the foremost outer shell and the basement outer shell to keep the foremost outer shell in a straight position with respect to the basement outer shell, wherein the second spring extends between a third pin fastened to the foremost outer shell and a fourth pin fastened to the basement outer shell, the second spring is disposed to extend through a location biased from the second fulcrum to thereby energize normally a spring force acting in a direction to pull mutually the foremost outer shell and the basement outer shell toward each other. 6. The multi-articulated manipulator defined in the claim 5 , further comprising cut-away portions to relieve the second spring are defined in a lengthwise direction of respective ends of the foremost outer shell and the basement outer shell to extend in axial direction and facing towards the spring. 7. The multi-articulated manipulator defined in the claim 1 , wherein each of the claw power-transmission shafts have a universal joint at a location corresponding to a joint between the foremost outer shell and the basement outer shell, and a first linkage mechanism to operate the claw members connected with the foremost outer shell around the first fulcrum in response to a bending movement between the foremost outer shell and the basement outer shell, and wherein the first linkage mechanism includes a first nut having first male threads mating with first female threads defined on a foremost end of the claw power-transmission shaft, and a first linkage member to connect the first nut with a respective one of the claw members, wherein during rotation of the claw power-transmission shaft, the first nut moves in an axial direction along the first male threads and the first linkage moves in the axial direction along the first male threads, whereby the first linkage member actuates the claw members around the first fulcrum. 8. The multi-articulated manipulator defined in the claim 7 , further comprising lengthwise slits defined in the foremost end of the foremost outer shell to receive the first linkage members to protect the first linkage members against interference during rotation. 9. The multi-articulated manipulator defined in the claim 1 , wherein the plurality of power-transmission shafts further comprises an outer shell power-transmitting shaft, the manipulator further comprising a second linkage mechanism to actuate the outer shell power-transmitting shaft the foremost outer shell relative to the basement outer shell, the second linkage mechanism being inserted into the basement outer shell to bend the foremost outer shell, wherein the second linkage mechanism is composed of a second male threads formed at the foremost end of the outer shell power-transmission shaft, a second nut having a second female threads mating with the second male threads, and a second linkage member to connect the second nut with the foremost outer shell, and wherein the second nut moves in an axial direction along the second male threads upon rotation of the outer shell power-transmitting shaft and the foremost outer shell moves so as to bend in the single direction around the second fulcrum point relatively to the basement outer shell.