Tapered roller bearing

The invention claimed is: 1. A tapered roller bearing comprising: an outer ring having an outer ring raceway surface on an inner peripheral surface thereof; an inner ring having an inner ring raceway surface on an outer peripheral surface thereof; and a plurality of tapered rollers arranged in a rollable manner between the outer ring raceway surface and the inner ring raceway surface, wherein the inner ring comprises a large-diameter side and a small-diameter side, a flange being formed on an end portion of the inner ring on the large-diameter side of the inner ring, and wherein a contact angle α of the tapered roller bearing is 37°30′ to 50°, wherein a ratio between a height (D 1 −d)/2 of the inner ring on the flange side and a radial cross-section thickness H of the tapered roller bearing is set such that 0.7<(D 1 −d)/2H<0.9, wherein d is an inner diameter of the tapered roller bearing and D 1 is an outer diameter of the inner ring. 2. A tapered roller bearing comprising: an outer ring having an outer ring raceway surface on an inner peripheral surface thereof: an inner ring having an inner ring raceway surface on an outer peripheral surface thereof; and a plurality of tapered rollers arranged in a rollable manner between the outer ring raceway surface and the inner ring raceway surface, wherein the inner ring comprises a large-diameter side and a small-diameter side, a flange being formed on an end portion of the inner ring on the large-diameter side of the inner ring, and wherein a contact angle α of the tapered roller bearing is 37°30′ to 50°, wherein a ratio between a roller length Lw and a width B of the inner ring is set such that 0.8<Lw/B<1.2. 3. A tapered roller bearing comprising: an outer ring having an outer ring raceway surface on an inner peripheral surface thereof; an inner ring having an inner ring raceway surface on an outer peripheral surface thereof; and a plurality of tapered rollers arranged in a rollable manner between the outer ring raceway surface and the inner ring raceway surface, wherein the inner ring comprises a large-diameter side and a small-diameter side, a flange being formed on an end portion of the inner ring on the large-diameter side of the inner ring, and wherein a contact angle α of the tapered roller bearing is 37°30′ to 50°, wherein a ratio between a radial cross-section thickness H of the tapered roller bearing and an inner diameter d of the tapered roller bearing is set such that 0.05<H/d<0.15. 4. The tapered roller bearing according to claim 3 , wherein a ratio between a diameter Dw 1 of each tapered roller on a large-diameter side of each tapered roller and a radial cross-section thickness H of the tapered roller bearing is set such that 0.3<Dw 1 /H<0.6. 5. The tapered roller bearing according to claim 3 , further comprising a resin cage, the cage comprising a large-diameter ring portion, a small-diameter ring portion, the large-diameter ring portion and the small-diameter ring portion being spaced from each other in an axial direction, and a plurality of pillar portions connecting the large-diameter ring portion and the small-diameter ring portion to each other, thereby forming a plurality of pockets to accommodate and to retain the plurality of tapered rollers, wherein at least one of an inner peripheral surface of the large-diameter ring portion and an outer peripheral surface of the small-diameter ring portion is formed with an annular notch such that a thickness of the ring portion is smaller than a thickness of each pillar portion. 6. The tapered roller bearing according to claim 5 , wherein the annular notch is formed on the inner peripheral surface of the large-diameter ring portion, and wherein the flange is arranged to extend into the annular notch. 7. The tapered roller bearing according to claim 3 , further comprising a resin cage, the cage comprising a large-diameter ring portion, a small-diameter ring portion, the large-diameter ring portion and the small-diameter ring portion being spaced from each other in an axial direction, and a plurality of pillar portions connecting the large-diameter ring portion and the small-diameter ring portion to each other, thereby forming a plurality of pockets to accommodate and to retain the plurality of tapered rollers, wherein the pillar portions are formed such that: in at least a part of a radially inner side of each pocket, an overlap width is 0.2 mm to 0.7 mm so that an opening width of each pocket on the radially inner side is smaller than a diameter of each tapered roller on a large-diameter side of each tapered roller, and in at least a part of a radially outer side of each pocket, an overlap width is 0.1 mm to 0.5 mm so that an opening width of each pocket on the radially outer side is smaller than a diameter of each tapered roller on a small-diameter side of each tapered roller. 8. The tapered roller bearing according to claim 3 , further comprising a resin cage, the cage comprising a large-diameter ring portion, a small-diameter ring portion, the large-diameter ring portion and the small-diameter ring portion being spaced from each other in an axial direction, and a plurality of pillar portions connecting the large-diameter ring portion and the small-diameter ring portion to each other, thereby forming a plurality of pockets to accommodate and to retain the plurality of tapered rollers, wherein an inclination angle of the cage is equal to or greater than 32° 30′ but smaller than 55°.