Patent ID: 8899286

Claim:
A pneumatic tire tread comprising at least one circumferential groove; at least two ribs adjacent to the circumferential groove; and resonators which are formed with a groove shape in which one end opens into the circumferential groove and the other end terminates in a rib and which reduces air column resonance in the circumferential groove, wherein: the resonators comprise a plurality of sets of branch grooves formed in the circumferential direction of the tire in such a way that the branch grooves of one set do not come into contact with each other on the same rib, wherein each set of branch grooves comprises: a first branch groove having: a first opening which opens into the circumferential groove, a first end part which terminates in the rib, and a width, and a second branch groove having: a second opening which opens into the circumferential groove, a second end part which terminates in the rib, and a width; wherein the length of the first branch groove of the resonators is at least 40% of the length of the contact surface, and the width of the first branch groove is between 10% and 25% of the groove width of the circumferential groove, when the tire is mounted on a standard rim and inflated to the nominal inflation pressure, and the nominal load is applied; wherein the length of the second branch groove of the resonators is between 40% and 90% of the length of the first branch grooves, and the width of the second branch groove is no less than the width of the first branch groove, when the tire is mounted on a standard rim and inflated to the nominal inflation pressure, and the nominal load is applied; the first openings of the first branch grooves of the resonators and the second openings of the second branch grooves open from the same rib into the same circumferential groove and also open alternately in the direction of rotation of the tire; the first branch grooves of the resonators are formed in such a way that the length between adjacent first openings which open from the same rib into the same circumferential groove constitutes no more than 50% of the length of the contact surface, so that the whole of a first branch groove is present within the tread running surface; and the difference between the minimum cross-sectional void ratio in the rib where the first and second branch grooves of the resonators are formed and the maximum cross-sectional void ratio in said rib is no greater than 10%.