Patent ID: 11926177
Assignee: THE YOKOHAMA RUBBER CO., LTD.
Field: Transport (Mechanical engineering)
Classification: CPC B  Y | IPC B

Claim 0:
1. A tire, comprising
at least four main grooves extending in a tire circumferential direction and a plurality of rows of land portions defined by the main grooves in a tread portion, of the plurality of rows of land portions a land portion row located on a tire equator line being formed of a block row or a rib row, a mounting direction with respect to a vehicle being specified,
a plurality of lateral grooves extending in a tire width direction being formed in an intermediate region between a main groove of the main grooves located on an innermost side in the tire width direction and a main groove of the main grooves located on an outermost side in the tire width direction on a vehicle inner side of the tread portion from the tire equator line as a boundary and an intermediate region between a main groove of the main grooves located on an innermost side in the tire width direction and a main groove of the main grooves located on an outermost side in the tire width direction on a vehicle outer side of the tread portion from the tire equator line as the boundary,
the lateral grooves having a groove width of 2 mm or more and a groove depth of 50% or more of a maximum depth of the main grooves,
the intermediate region on the vehicle inner side and the intermediate region on the vehicle outer side each comprising 50 or more blocks defined by the lateral grooves,
a plurality of sipes extending in the tire width direction being formed in each of the blocks in the intermediate region on the vehicle inner side and the blocks in the intermediate region on the vehicle outer side,
a groove area ratio Rin in a ground contact region on the vehicle inner side and a groove area ratio Rout in a ground contact region on the vehicle outer side satisfying a relationship Rin>Rout, an average land portion area Ain of the intermediate region on the vehicle inner side and an average land portion area Aout of the intermediate region on the vehicle outer side satisfying a relationship Ain<Aout, the number of blocks Nin in the intermediate region on the vehicle inner side and the number of blocks Nout in the intermediate region on the vehicle outer side satisfying a relationship Nin≥1.5×Nout, a total sipe length Sin in the intermediate region on the vehicle inner side and a total sipe length Sout in the intermediate region on the vehicle outer side satisfying a relationship Sin<Sout,
the sipes formed in the blocks in the intermediate region on the vehicle outer side having a three-dimensional structure in a range of 70% or more of a sipe length, and
all of the sipes formed in the intermediate region on the vehicle inner side being inclined in a same first inclination direction and all of the sipes formed in the intermediate region on the vehicle outer side being inclined in a same second inclination direction opposite to the first inclination direction with respect to the tire width direction.