Patent ID: 9272579
Filing Date: 2016-03-01
CPC Classification: B60C

Claim Text:
1. A heavy duty pneumatic tire comprising: a tread formed of a crosslinked rubber; and a belt that is located inwardly of the tread in a radial direction, and that extends in an axial direction, wherein a body having an outer surface that forms a tread surface, and side ends located outwardly of the body in the axial direction are formed by side grooves extending in a circumferential direction being formed in end portions of the tread, shoulder portions are formed in end portions of the body by main grooves extending in the circumferential direction being formed in the body, a vertex of each side end is located inwardly of the tread surface in the radial direction, a ratio of a width BW of the belt to a width TW of the body is greater than or equal to 0.95, and is not greater than 1.00, a width GW of each side groove is greater than or equal to 2.0 mm, a width RW of each side end is greater than or equal to 2.0 mm, a sum of the width GW of each side groove and the width RW of each side end is less than or equal to 10 mm, a ratio of a depth D a ratio of a distance H from the vertex of each side end to the tread surface relative to the depth D of each main groove is greater than or equal to 0.4, and when a ground contact surface of each shoulder portion, which is obtained when the tire contacts with a ground, is divided into an outer ground contact surface and an inner ground contact surface located inwardly of the outer ground contact surface in the axial direction, by a virtual boundary that extends in the circumferential direction, and that passes through a center of a maximal width of the ground contact surface, a ratio of an average ground contact pressure Po of the outer ground contact surface relative to an average ground contact pressure Pi of the inner ground contact surface is greater than or equal to 0.90, and is not greater than 1.00, wherein the vertex of each side end is an edge of each side end, which is located on the innermost side of the side end in the axial direct ion, wherein the outer surface of each side end extends outward from the edge of each side end in the axial direction so as to be tilted inward in the radial direction.