Patent ID: 8752601

Claim:
A pneumatic tire comprising a pair of bead portions, a carcass as a skeleton extending in a toroidal shape across the pair of bead portions, a belt including at least one slant belt layer, and a tread, the belt and the tread being sequentially disposed on a radially outer side of a crown portion of the carcass, wherein as seen in a cross section in the tire width direction when the tire is mounted on a prescribed rim, a BD/BW ratio is from 0.01 to 0.07, where BD is the radial difference between the widthwise center and the widthwise end of the narrowest slant belt layer constituting the belt, and BW is the width of the narrowest slant belt layer; an SWh/SH ratio is not less than 0.5, where SWh is the shortest distance between a line segment parallel to a rotation axis of the tire at the maximum width position of the tire and a line segment parallel to the rotation axis of the tire at a bead toe, and SH is a sectional height of the tire; a curvature of the carcass in the cross section in the tire width direction is the maximum on a path from an intersection (I 2 ) between a line segment perpendicular to the rotation axis of the tire from a widthwise end of the narrowest slant belt layer and the carcass, to an intersection (I 4 ) between a line segment parallel to the rotation axis of the tire at the maximum width position of the tire and the carcass; a path length CSR 1 of the carcass from an intersection (I 1 ) between a line bisecting a radial distance CSH between the radially outermost end of the carcass and the radially outermost end of a bead core and extending parallel to the rotation axis of the tire, to the intersection (I 2 ), is longer than a path length CSR 2 of the carcass from the intersection (I 1 ) to an intersection (I 3 ) between a line connecting the radially outermost ends of both bead cores; and a CRh/SWh ratio is from 1.15 to 1.25, where CRh is the shortest distance from the portion where the curvature of the carcass is the maximum to the straight line passing through the bead toe and parallel to the rotation axis of the tire, and SWh is the shortest distance between a line segment parallel to a rotation axis of the tire at the maximum width position of the tire and a line segment parallel to the rotation axis of the tire at a bead toe.