Patent ID: 9688102
Date: 2017-06-27
CPC Classifications: B60C

Claim:
1. A motorcycle tire comprising a tread portion having tread edges and a tread face extending therebetween and curved so that the maximum section width of the tire lies between the tread edges, the tread portion being provided with tread grooves defining a unidirectional tread pattern having an intended tire rotational direction (R), the tread grooves which are separated from each other include inside oblique main grooves and outside oblique main grooves, wherein the inside oblique main grooves are arranged circumferentially of the tire and staggeredly on both side of the tire equatorial plane (C), the inside oblique main grooves each extending from its axially inner end (Ai) to its axially outer end (Ao), while inclining to the axially outside of the tire toward the intended tire rotational direction (R) at an inclination angle α of from 5 to 30 degrees with respect to the tire circumferential direction, the axially inner end (Ai) is spaced apart axially outwardly from the tire equatorial plane (C) by an axial distance of from 0 to 10% of a half tread width (W) measured from the tire equator to one of the tread edges along the tread face and a tire meridian section, the outside oblique main grooves are arranged circumferentially of the tire and staggeredly positioned on both side of the tire equatorial plane (C), the outside oblique main grooves each extend from its axially inner end (Bi) to its axially outer end (Bo), while inclining to the axially outside of the tire toward the opposite direction to the intended tire rotational direction (R), the axially inner end (Bi) is located axially inward of the outer end (Ao) of the inside oblique main groove, the axially outer end (Bo) is spaced apart from the tire equatorial plane (C) by an axial distance of from 80 to 95% of the half tread width (W), an inclination angle β of the outside oblique main groove with respect to the tire circumferential direction is gradually increased from the inner end (Bi) to the axially outer ends (Bo) within a range between 10 degrees and 60 degrees, wherein the outside oblique main grooves on each side of the tire equatorial plane (C) each overlap, in the tire circumferential direction, with one of the inside oblique main grooves on the same side and one of the inside oblique main grooves on the other side of the tire equatorial plane (C), wherein the tread grooves further include middle oblique main grooves disposed on each side of the tire equatorial plane (C), the middle oblique main grooves are inclined to the axially outside of the tire toward the opposite direction to the intended tire rotational direction (R), and on each side of the tire equatorial plane (C), axially inner ends (Ci) of the middle oblique main grooves are positioned axially outward of the axially outer ends (Ao) of the inside oblique main grooves, and axially outer ends (Co) of the middle oblique main grooves are positioned axially inward of the axially outer ends (Bo) of the outside oblique main grooves, wherein the tread grooves further include outside oblique subsidiary grooves disposed on each side of the tire equatorial plane (C), the outside oblique subsidiary grooves are inclined to the axially outside of the tire toward the opposite direction to the intended tire rotational direction (R), and on each side of the tire equatorial plane (C), axially inner ends (Di) of the outside oblique subsidiary grooves are positioned axially inward of the axially outer ends (Co) of the middle oblique main grooves, and axially outer ends (Do) of the outside oblique subsidiary grooves are positioned axially outward of the axially outer ends (Co) of the middle oblique main grooves and axially inward of the axially outer ends (Bo) of the outside oblique main grooves, wherein the outside oblique main grooves are longer than the middle oblique main grooves which are longer than the outside oblique subsidiary grooves, and on each side of the tire equatorial plane (C), between every circumferentially adjacent two of the outside oblique main grooves, one of the middle oblique main grooves and one of the outside oblique subsidiary grooves are disposed such that one of said circumferentially adjacent two outside oblique main grooves, said one of the middle oblique main grooves and said one of the outside oblique subsidiary grooves are arranged in the order of groove lengths in one tire circumferential direction, wherein on each side of the tire equator, regions each defined by being axially outside one of the inside oblique main grooves and disposed between the circumferentially adjacent two outside oblique main grooves, are each provided with no grooves other than said one of the middle oblique main grooves and said one of the outside oblique subsidiary grooves, and one end portion of each of the inside oblique main grooves extends toward a central part of a length of one of the outside oblique main grooves, and no groove is disposed between the end of said one end portion of each of the inside oblique main grooves and said one of the outside oblique main grooves.