Tapered roller bearing and main shaft support structure of wind-power generator using same

The invention claimed is: 1. A tapered roller bearing comprising: an outer ring; an inner ring; a plurality of tapered rollers, each tapered roller having a rolling surface extending between ends of each tapered roller and abutting said outer ring and said inner ring; and a plurality of retainer segments each having pockets formed by a plurality of column parts extending in an axial direction and connection parts extending in a circumference direction to couple said plurality of column parts to house said tapered rollers, and arranged so as to be continuously lined with each other in a circumferential direction between said outer ring and said inner ring, wherein a relation D>d is satisfied in at least one position of the rolling surface of each tapered roller, where a roller diameter of each tapered roller is D, and d is a distance between track surfaces of the inner ring and the outer ring, wherein at the at least one position where the relation D>d is satisfied, the roller diameter D and the distance d between the track surfaces of the inner ring and the outer ring are measured, the track surface of each of the inner ring and outer ring facing the roller surface of each of the plurality of tapered rollers, and each retainer segment guides the roller. 2. The tapered roller bearing according to claim 1 , wherein a crowning is formed on the roiling surface of the tapered roller bearing, a relation D 1 >d 1 is satisfied in all of the tapered rollers, wherein D 1 is a roller diameter of the tapered roller at the top of the crowning of the tapered roller and d 1 is the distance between the track surfaces at the position corresponding to the top of the crowning. 3. The tapered roller bearing according to claim 1 , wherein a relation D>d is satisfied in the entire rolling surface of the tapered roller. 4. A main shaft support structure of a wind-power generator, comprising: a blade receiving wind power; a main shaft having one end fixed to said blade and rotating together with said blade; and a tapered roller bearing assembled in a fix member to support said main shaft rotatably, wherein, said tapered roller bearing includes an outer ring, an inner ring and, a plurality of tapered rollers, each tapered roller having a rolling surface extending between ends of each tapered roller and abutting said outer ring and said inner ring and a plurality of retainer segments each having pockets formed by a plurality of column parts extending in an axial direction and connection parts extending in a circumference direction to couple said plurality of column parts to house said tapered rollers, and arranged so as to be continuously lined with each other in a circumferential direction between said outer ring and said inner ring, wherein a relation D>d is satisfied in at least one position of the rolling surface of each tapered roller, where a roller diameter of each tapered roller is D, and d is a distance between track surfaces of the inner ring and the outer ring, wherein at the at least one position where the relation D>d is satisfied, the roller diameter D and the distance d between the track surfaces of the inner ring and the outer ring are measured, the track surface of each of the inner ring and outer ring facing the roller surface of each of the plurality of tapered rollers, and each retainer segment guides the roller.