Patent ID: 8851129
Filing Date: 2014-10-07
Classification: B60C,Y10S

Abstract:
1. A run-flat radial tire including: a tread portion; a pair of side wall portions extending internally in the radial direction from both end portions of the tread portion; a bead portion extending continuously on an interior circumferential side of each of the side wall portions; a tread rubber provided to the tread portion and forming a road contacting surface; a radial carcass formed by one or more carcass plies, side portions of which carcass plies are turned-up outwards in the radial direction around a pair of bead cores disposed to each of the bead portions; a belt formed by one or more belt plies disposed between the radial carcass and the tread rubber; and, a reinforcing rubber layer having a substantially-crescent-shaped cross section and disposed on the inner side in the tire width direction of the radial carcass at least a portion corresponding to each of the side wall portions, wherein the tread portion has a rigidity reducing portion that reduces the rigidity of the tire, the rigidity reducing portion being formed in an area located on the inner side than an end of the belt in the tire width direction and on the outer side than a road-contacting end in the tire width direction at a 75% load state where the tire is assembled with a predetermined rim, inflated at a predetermined inner pressure, and subjected to a 75% load relative to a predetermined load, the predetermined load being a maximum load per wheel with an applicable size specified under a predetermined industrial standard, the predetermined inner pressure being a pneumatic pressure corresponding to the maximum load per wheel with the applicable size specified under the predetermined industrial standard, and the predetermined rim being a standard rim with the applicable size specified under the predetermined industrial standard, wherein the rigidity reducing portion comprises a circumferential groove that opens to a surface of the tread rubber, and wherein the circumferential groove is formed either continuously or in an intermittent manner so as not to cross an other groove that opens to the surface of the tread rubber, wherein an inner end of the reinforcing rubber layer in the tire width direction is positioned on the outer side in the tire width direction than the road-contacting end under the 75% load state and on the inner side than the belt end, and wherein the inner end of the circumferential groove in the tire width direction on the surface of the tread rubber is positioned on the inner side in the tire width direction than the inner end of the reinforcing rubber layer in the tire width direction and on the outer side in the tire width direction than the road-contacting end under the 75% load state.