A pneumatic tire has a tread portion provided with shoulder blocks arranged along the tread edges and each having a side surface extending radially inwardly from the tread edge. The side surface includes a first surface section and a second surface section arranged in the tire circumferential direction and protruding outward of the tire than the groove bottom surfaces of the shoulder lateral grooves. In a tire meridian section including the first surface section, the profile line of the first surface section extends from the tread edge to a position corresponding to a position of the radial inner ends of the shoulder lateral grooves. In a tire meridian section including the second surface section, the profile line of the second surface section extends from the tread edge to a position corresponding to the above-said position of the radial inner ends through a path inward of the tire than that of the profile line of the first surface section.

A pneumatic tyre includes a tread portion being provided with a land portion divided by a main groove extending continuously in a tyre circumferential direction. The land portion is provided with two or more sipes having a width less than 1.5 mm on a ground contacting surface of the land portion and two or more groove elements having a width equal to or more than 1.5 mm on the ground contacting surface. Lengths in a tyre axial direction of the groove elements are equal to or less than 15% of a maximum width in the tyre axial direction of the ground contacting surface of the land portion, and at least one of the sipes is in communication with one of the groove elements.

A tire pattern structure including a tread pattern and a sidewall pattern is formed by uniformly distributed patterns in the circumferential direction of a tire. The tread pattern is formed by two long spoon-shaped pattern blocks symmetrical with respect to the center of the tire tread and the axial direction of the tire. A spoon-shaped pattern block group is across the center of the tire tread and each interlaced and mapped sideway along the center of the tire tread formed by upper and lower long spoon-shaped pattern block groups. The two spoon-shaped patterns are coupled from a head block to a handle block and bent at the tire shoulder to couple the sidewall pattern formed by the upper and lower sidewall pattern blocks which are formed by a quadrilateral block of two protrusions and three recessed blocks to overcome rough terrains and provide excellent mud and water removing performance.

In a tire having a composite groove provided on a shoulder land portion, the durability of the shoulder land portion is improved. The tire includes a tread portion. The tread portion includes a first shoulder land portion including a first tread edge. The first shoulder land portion has a shoulder composite groove, and a recess formed on a buttress surface. The recess includes an opening edge on the buttress surface, a bottom surface along the buttress surface, and an inner wall surface connecting the opening edge to the bottom surface. The shoulder composite groove includes, in a transverse cross section thereof, a sipe element having a width not greater than 1.5 mm and extending in a tire radial direction, and a groove element connected to an inner side in the tire radial direction of the sipe element and having a width greater than 1.5 mm. The groove element is open at the bottom surface of the recess.

The invention relates to vehicle tires for utility vehicles, comprising a belt (9) and a tread profile that extends in the axial direction A of the vehicle tire between two tire shoulders, in each of which a profiled shoulder strip (19) is formed that extends over the circumference of the vehicle tire. The profiled shoulder strip is delimited in the axial direction A towards the equatorial plane Ä of the tire by a groove (20), which extends over the circumference of the vehicle tire, and on the profiled strip face facing away from the equatorial plane Ä by a respective surface of the tire lateral wall (2), which forms the profiled shoulder strip (19) flank facing away from the equatorial plane Ä. The tread profile is delimited by a surface which forms the road contact surface on the sectional planes containing the tire axis, said surface forming a surface contour line K which is curved towards the tire between the profiled shoulder strips (19). In at least one profiled shoulder strip (19), the surface which forms the road contact surface is formed as the extension of the curved surface contour line K into the profiled shoulder strip (19) in an axial first extension section (21) of the width a, said extension section adjoining the circumferential groove (20), and the radial position of the surface which forms the road contact surface constantly decreases outwards along the axial extension in a second extension section (22) of the width c, said extension section adjoining the first extension section (21) and extending to the surface of the tire lateral wall. The surface which forms the road contact surface is formed by a first sub-portion (23), which extends to a point P, and a second sub-portion (24), which extends from the point P to the surface of the tire lateral wall (2), in the second extension section (22) such that the surface which forms the road contact surface has a concave contour progression in the first sub-portion (23) and a convex contour progression in the second sub-portion (24) with a turning point of the contour progression in the point P, said point P being arranged outside of the belt (9) in the axial direction A.

A tire includes a projection disposed between a tread end and a maximum width position on a side surface. The projection includes a groove that extends through an outer side surface in a circumferential direction. The tire is preferably produced by using a mold which has a first part and a second part and in which a dividing line between the first and the second parts extends in the circumferential direction and comes into contact with the side surface, and the groove preferably overlaps an imaginary line, on the side surface, corresponding to the dividing line. A width of the groove is preferably not less than 1.5 mm and preferably not greater than 3.0 mm.

A pneumatic tire in the present invention has a narrow groove extending in the tire circumferential direction on a portion closer to a tire equator than a ground contact end, and dividing a shoulder land into a main land close to the tire equator and a sub land close to the ground contact end. An outer sidewall of the narrow groove has: a straight line extending inward in a tire radial direction from an outer circumferential surface of the sub land; a first circular arc smoothly connected to the straight line; and a second circular arc smoothly connected to a groove bottom of the narrow groove. The first circular arc has a center of a circular arc closer to the equator than the outer sidewall. The second circular arc has a center of a circular arc closer to an outside in a tire width direction than the outer sidewall.

A tire has at least two annular grooves which are formed at the buttress, which extend in a tire circumferential direction, which are ring-like in shape, and which also extend so as to be directed toward an interior in the tire width direction. The at least two annular grooves include a first annular groove which is nearest to the contact patch, and a second annular groove which is farther away from the contact patch than the first annular groove. The bottoms of the first annular groove and the second annular groove are formed so as to appear arcuate in shape as viewed in a tire meridional section. The radius of curvature of the bottom of the first annular groove is greater than radius of curvature of the bottom of the second annular groove.

A pneumatic tire has paired bead portions, paired sidewall portions, a tread portion, a plurality of lug grooves extending from a shoulder area of the tread portion to reach a buttress area of the sidewall portion, and a block defined by the plurality of lug grooves. The block includes a shoulder block provided in the shoulder area, and a buttress block provided in the buttress area. The buttress area is provided with an annular rib annularly extending along a tire circumferential direction. The lug grooves are comparted into an outside lug groove positioned in an outer side of the annular rib, and an inside lug groove positioned in an inner side of the annular rib. A widened portion is provided in at least part of the plurality of lug grooves so as to enlarge a width of the annular rib.

A tire is provided that includes a tread. In the tire, at least two circumferential grooves are carved in the tread, and at least three land parts are formed arranged side by side in an axial direction. Among the at least three land parts, a land part located on an outer side in the axial direction is a shoulder land part. The shoulder land part includes shoulder blocks arranged side by side in a circumferential direction. The shoulder land part is divided into a grounding zone from an equatorial plane side to a grounding end and a non-grounding zone from the grounding end to an end of the tread. First dimples having a cylindrical shape are carved in the plurality of shoulder blocks in the grounding zone.