Friction-roller-type reduction gear

The invention claimed is: 1. A friction-roller-type reduction gear comprising: a sun roller arranged concentrically with an input shaft; a ring roller arranged concentrically with the sun roller at an outer periphery-side of the sun roller and coupled to an output shaft; a plurality of intermediate rollers configured to rolling-contact an outer peripheral surface of the sun roller and an inner peripheral surface of the ring roller; a plurality of pivot holders each of which is provided for each of the plurality of intermediate rollers and is configured to support a rotational shaft of the intermediate roller; a carrier configured to support the plurality of pivot holders, respectively, and a loading cam mechanism configured to apply a pressing force, which is proportional to a magnitude of transmission torque to be applied to rolling-contact surfaces between respective rollers of the sun roller, the ring roller and the intermediate rollers, to the rolling-contact surfaces, wherein each of the pivot holders comprises: a pair of bearing parts configured to support the rotational shaft of the intermediate roller and having a pivot center at an eccentric position from a center of the rotational shaft, and a bridging part configured to integrally couple the bearing parts, wherein the carrier has holder support parts configured to rotatably support the bearing parts, wherein an interaxial distance between the pivot center of the bearing part and the center of the rotational shaft is equal to or smaller than a maximum radius of an outer diameter of the intermediate roller, and wherein the pivot center is located on an applying line of a torque reaction force of transmission torque to be applied to the pivot holder. 2. The friction-roller-type reduction gear according to claim 1 , wherein the interaxial distance between the center of the pivot axis and the center of the rotational shaft is smaller than a length, which is to be obtained by subtracting a sum of an inner peripheral surface radius of the holder support part configured to support the rotational shaft and a radial minimum thickness of the bearing part from a radius of the intermediate roller. 3. The friction-roller-type reduction gear according to claim 1 , wherein the bridging part is arranged over an outer peripheral surface of the intermediate roller from both end surfaces of the intermediate roller. 4. The friction-roller-type reduction gear according claim 1 , wherein the rotational shaft of the intermediate roller is inserted into a shaft hole axially penetrating an inner diameter part, and wherein the bearing parts are respectively fixed to both end portions of the rotational shaft, so that the bridging part is configured.