Electric rotating machine and manufacturing method for electric rotating machine

The invention claimed is: 1. A gas cooled electric rotating machine in which, in operation, a cooling gas is flowed through into a rotor and a stator, wherein the rotor comprises: a shaft having a center hole formed along a center of rotation of the rotor; a pair of collector rings installed around an outer periphery of the shaft; a hole for studs formed at a machine interior side of the center hole so as to extend in a radial direction from the center hole to an outer peripheral surface of the rotor to allow the center hole and the outer peripheral surface to communicate with each other; a pair of center hole conductors inserted into the center hole along the center of rotation while being electrically insulated from the shaft and from each other, the center hole conductors including respective end parts extending along an axial direction of an end of the shaft, wherein each of the end parts comprises a circumferential surface with respect to a center line of the end parts parallel to the center of rotation, said circumferential surface serving as an electric connection surface; and a pair of end conductors provided at the end of the shaft so as to be each electrically insulated from the shaft, wherein each of the end conductors has a hole so that the respective end part can be fitted into the hole and electrically connected thereto in a manner that an inner peripheral surface of the hole is connected to the circumferential surface of the respective end part of the pair of center hole conductors, and wherein each of the end conductors is electrically connected to a respective one of the pair of collector rings. 2. The electric rotating machine according to claim 1 , wherein the end conductors are provided with respective slits which communicate with the corresponding holes, and the slits are formed so as to enable a width between the slits to be reduced using tightening members. 3. The electric rotating machine according to claim 1 , wherein circumferential surfaces of the end parts at ends of the center hole conductors are inclined to a circumferential surface with respect to the center between the end parts. 4. The electric rotating machine according to claim 1 , further comprising: an insulating plug located at ends of the center hole conductors to electrically insulate the center hole conductors from the shaft and to seal the cooling gas; and gaskets arranged in the axial direction between the end of each of the center hole conductors and the insulating plug and between the insulating plug and the center hole in the shaft to seal the cooling gas. 5. The electric rotating machine according to claim 2 , further comprising: an insulating plug located at ends of the center hole conductors to electrically insulate the center hole conductors from the shaft and to seal the cooling gas; and gaskets arranged in the axial direction between the end of each of the center hole conductors and the insulating plug and between the insulating plug and the center hole in the shaft to seal the cooling gas. 6. The electric rotating machine according to claim 3 , further comprising: an insulating plug located at ends of the center hole conductors to electrically insulate the center hole conductors from the shaft and to seal the cooling gas; and gaskets arranged in the axial direction between the end of each of the center hole conductors and the insulating plug and between the insulating plug and the center hole in the shaft to seal the cooling gas. 7. A manufacturing method for an electric rotating machine, the manufacturing method comprising: preparing a rotor comprising a shaft having a center hole formed along a center of rotation of the rotor, a pair of collector rings installed around an outer periphery of the shaft, and a hole for studs formed at a machine interior side of the center hole so as to extend in a radial direction from the center hole to an outer peripheral surface of the rotor to allow the center hole and the outer peripheral surface to communicate with each other; inserting a pair of center hole conductors including respective end parts extending along an axial direction of an end of the shaft, into the center hole along the center of rotation such that the center hole conductors are electrically insulated from the shaft and from each other, wherein each of the end parts comprises a circumferential surface with respect to a center line of the end parts parallel to the center of rotation, said circumferential surface serving as an electric connection surface; and electrically connecting a pair of end conductors, which are electrically insulated from the shaft and are electrically connected to a respective one of the pair of collector rings, to the circumferential surfaces of the end parts of the pair of center hole conductors, respectively, in a manner that each of the end parts is fitted into a hole of the respective end conductor and is electrically connected thereto in a manner that an inner peripheral surface of the hole is connected to the circumferential surface of the respective end part.