A pneumatic tire includes first and second main grooves, and first sipes and auxiliary grooves on second land portions between the first and second main grooves, the auxiliary grooves opening to the second main grooves and terminating in the second land portions. The auxiliary grooves bend at a bend point and include a first portion extending from an opening end to the bend point, and a second portion extending from the bend point to a terminating end. A groove width of the first portion gradually reduces from the opening end to the bend point. Second sipes have an end that opens to each of the second main grooves and another end that opens to each of the terminating ends. Third sipes have an end that opens to the first main grooves and another end that opens to the first portions. The sipes are parallel to each other.

A center rib is formed by two circumferential main grooves. A main inclined groove and an auxiliary inclined groove are formed in the center rib. The main inclined groove is inclined with respect to the tire circumferential direction to become distanced from the tire equatorial plane from a leading side toward a trailing side in a tire rotational direction, a plurality of the main inclined grooves being juxtaposed in the tire circumferential direction and disposed alternately in the tire circumferential direction on both sides of the tire equatorial plane. The auxiliary inclined groove inclines with respect to the tire circumferential direction to become distanced from the tire equatorial plane from the leading side toward the trailing side in the tire rotational direction, a leading end and a trailing end terminating within the center rib while intersecting at least two of the main inclined grooves.

A pneumatic tire comprises a tread portion 2 provided with shoulder axial grooves 10 extending from a shoulder main groove 3 to a tread edge Te while inclining to a first-side in the tire circumferential direction. The shoulder axial groove 10 has a first-side groove edge, a second-side groove edge, a first-side groove-sidewall 14 extending radially inward from the first-side groove edge 12, and a second-side groove-sidewall 15 extending radially inward from the second-side groove edge 13. The shoulder axial groove 10 has a part where the inclination angle β of the first-side groove-sidewall 14 with respect to a normal line passing through the first-side groove edge 12 perpendicularly to the tread surface 2s is more than the inclination angle α of the second-side groove-sidewall 15 with respect to a normal line passing through the second-side groove edge 13 perpendicularly to the tread surface 2s.

A pneumatic tire includes a tread having a shoulder main groove, and a center main groove such that the tread is divided into a shoulder land portion and a middle land portion between the shoulder main groove and center main groove. The shoulder and center main grooves are formed such that a ratio W1/W2 of a tire axial direction width W1 of the shoulder land portion to a tire axial direction width W2 of the middle land portion is in range of 6 to 2.4. The shoulder land portion has a shoulder narrow groove formed on a shoulder main groove side and continuously extending in the tire circumferential direction such that the shoulder narrow groove has groove width smaller than groove width of the shoulder main groove, and the tread is formed such that a first camber amount is in range of 5.3% to 6.5% of tread ground contact width.

A pneumatic tire includes four main grooves defining a central land portion, intermediate land portions, and outer land portions. Compound grooves including lateral grooves communicate with the main groove and terminate inside a land portion, and including sipes extending from the lateral grooves to the main groove, are formed at an interval in the tire-circumferential direction in the central land portion or an intermediate land portion. An opening direction of the lateral grooves relative to the main grooves alternatingly reverses in the tire circumferential direction. The lateral grooves include a broad width portion that opens to the main groove and extends at a constant groove width, and a narrow width portion positioned between the broad width portion and the sipe and extends at a constant groove width narrower than the broad width portion.

A pneumatic tire comprising a tread portion provided with a middle land portion 6 which is arranged between a central main groove 3 and a shoulder main groove 4. The middle land portion 6 is provided with an inner middle lateral groove 8 and an outer middle lateral groove 9. The inner middle lateral groove 8 comprises a first inclined portion 10 that extends axially outwardly from the central main groove 3 at an angle θ1 of from 10 to 40 degrees with respect to a circumferential direction of the tire, and a second inclined portion 12 that is inclined at an opposite direction to the first inclined portion 10 so as to extend axially inwardly, and a bent portion 11 connecting the first inclined portion 10 and the second inclined portion 12. The outer middle lateral groove 9 is communicated with the second inclined portion 12 of the axially inner middle lateral groove 8 without including an axially outermost groove edge 8e of the inner middle lateral groove 8, and is communicated with the shoulder main groove 4. The axially outer middle lateral groove 9 is inclined in the same direction of the first inclined portion 10 of the inner middle lateral groove 8 at an angle θ3 of from 30 to 70 degrees with respect to the circumferential direction of the tire.

A tire includes a circumferential direction main groove on a tread surface, first and second circumferential supplemental grooves located on both sides of the circumferential direction main groove, and first and second central land portions formed between the circumferential direction main groove and the first and second circumferential direction supplemental grooves. The first and second central land portions have plural width direction sipes, respectively, and each of the width direction sipes extends to the circumferential main groove, the circumferential main groove has shallow grooved portions and deep grooved portions. The deep grooved portions are deeper than the shallow grooved portions, and the shallow grooved portions are shallower than the circumferential supplemental grooves.

A pneumatic tire is provided in a tread portion 2 with shoulder main grooves 3 and 4 and a center main groove 5 and divided into shoulder land portions 6 and 7 and crown land portions 8 and 9. The total width of the shoulder main grooves 3 and 4 and the center main groove 5 is 24% to 28% of the tread width TW. The crown land portions 8 and 9 are not provided with a groove having a width of not less than 2 mm and extending across the entire width of the crown land portion, but provided with a plurality of crown sipes 10 having a width of less than 2 mm. The crown sipes 10 include first sipes 11 comprising a lateral direction part 11a extending parallel with the tire axial direction and an oblique part 11b inclined with respect to the lateral direction part 11a. The ratio ΣLy/ΣLs of the sum ΣLy of the lengths Ly of the lateral direction parts 11a and the sum ΣLs of the lengths Ls of the crown sipes 10 is not more than 0.15.

In a pneumatic tire, shoulder blocks are formed with one of two types of values for block width measured in the tire circumferential direction. A cross-sectional shape of a tread ground contact edge of the shoulder blocks with the smaller block width value when sectioned in a plan that includes a tire axial center is formed with a squared portion formed by a curved line having a radius of curvature of 10 mm or less, or is formed with a squared portion taper cut along a straight line having a length of 10 mm or less. A cross-sectional shape of a tread ground contact edge of the shoulder blocks with the larger block width value when sectioned in the plan that includes the tire axial center is formed with a rounded portion formed by a curved line having a radius of curvature of from 30 mm to 60 mm inclusive.

The present invention is provided with: a mounting body mounted on an axle; a ring-shaped body (13) surrounding the mounting body from an outside in a tire radial direction; a connecting member (15) configured to connect the mounting body and the ring-shaped body (13) such that the mounting body and the ring-shaped body (13) are displaceable; and a cylindrical tread member (16) mounted over the ring-shaped body (13), wherein grooves (51, 52) are formed at an outer peripheral surface of a portion located above and corresponding to a portion of the tread member (16) at which the ring-shaped body (13) and the connecting member (15) are connected.