In a pneumatic tire, a sidewall region comprises a protruding portion that protrudes in a tire width direction from a base surface, the protruding portion comprises an apical surface which is arranged at an end toward an exterior in the tire width direction, at least one side surface that is respectively contiguous with the base surface and the apical surface, a first linear projection which protrudes at a boundary between the apical surface and the at least one side surface, a second linear projection which protrudes at a boundary between the basal surface and the at least one side surface, and a third linear projection which protrudes in such fashion that a first end of the third linear projection is contiguous with the first linear projection, and a second end of the third linear projection is contiguous with the second linear projection.

Provided are a tire with new sidewall pattern and a tire mold, which belongs to the technical field of tire, the tire includes a tire body, a sidewall of the tire body has a labeling region, in which multiple pattern units are provided; the pattern units are provided to protrude from the tire body, the pattern unit includes a curved portion having a curved segment and extension ends provided at both ends of the curved segment. The tire mold is used for manufacturing the tire. The tire has better visual performance and mechanical performance.

A mold (10) for forming a tire (12) is provided that has an interchangeable element (14) configured for engaging the tire (12) and forming a section of tread (16) of the tire (12) when the tire (12) is molded by the mold (10). A lamelle (18) is removably attachable to the interchangeable element (14) and is configured for engaging the tire (12) and forming a sipe (20) of the section of tread (16) of the tire (12). The lamelle (18) is removably attachable in that the lamelle (18) is configured to be attached to the interchangeable element (14) and then removed from attachment to the interchangeable element (14).

A valve insert (4) for use in an air venting valve (1) of a vulcanizing mould of a vehicle tyre, which valve insert (4) comprises a valve stem (6) arranged to be inserted into a valve sleeve (3) of the air venting valve (1), a first end of which valve stem (6) is provided with a valve disk (7) and a second end of which valve stem (6) is provided with an elastically compressible retainer member (8) for detachably attaching the valve insert (4) to the valve sleeve (3) and for limiting an opening stroke of the valve insert (4). The retainer member (8) comprises a stop surface (14) which is arranged to abut an end surface (16) of the valve sleeve (3) and thus limit the opening stroke of the valve insert (4).

A pneumatic tire includes a tread portion and a pair of sidewall portions extending inward in a tire radial direction from both edges of the tread portion. At least one of the sidewall portions is provided with a vent line and a recessed portion adjacent to each other in the tire radial direction. The vent line protrudes from a sidewall outer surface and extends in a tire circumferential direction. The recessed portion is recessed from the sidewall outer surface at a first depth. A serration pattern, in which a plurality of ridges extending in the tire radial direction are arranged in the tire circumferential direction, is formed in the recessed portion. Each of heights of the ridges is smaller than the first depth.

A tire that includes a tread 4 having a plurality of land portions demarcated by circumferential grooves. Sipes are formed in at least one of the land portions to form a plurality of rods each surrounded by the sipes. Each rod has a bent portion between an outer surface of the rod and a root thereof. Each rod is bent so as to form an arc at the bent portion or each rod is bent so as to form a corner at the bent portion.

A tire capable of reducing air resistance without sacrificing ride comfort is provided. A tire 1 includes a tread portion 2 and sidewall portions 3 extending from both ends of the tread portion 2 through buttress regions 31 and maximum width positions 32 to bead portions 4. A projection portion 33 extending in a tire circumferential direction and a recess portion 34 extending in the tire circumferential direction are formed in each of the buttress regions 31. The projection portion 33 has a projection height of 0.1 to 0.3 mm from a reference surface of the buttress region 31 toward an outer side in a tire radial direction. The recess portion 34 has a recess depth of 0.1 to 0.3 mm from the reference surface toward an inner side in the tire radial direction.

A vulcanization mold is for a tire in which a plurality of sipes are arranged in a tire circumferential direction. The vulcanization mold includes a tread mold having a plurality a blades, for forming the sipes, provided on a tread forming surface. The tread mold is composed of a plurality of segments divided in the tire circumferential direction such that the segments are movable in a tire radial direction, and the number of divisions of the segments is 17 or more and 29 or less.

The present invention is directed to a 3D-printed tire segment model having a tread portion comprising a plurality of grooves, ribs and/or tread blocks, and a plurality of blades extending out of the ribs and/or tread blocks, wherein the tire segment model is made of a 3D-printed polymer. Moreover, the present invention is drawn to a method of making a tire mold segment, including the step of 3D-printing the above tire segment model with a polymer.

A tire vulcanizing method includes a tire removal step for removing a vulcanized tire from a mold. The tire removal step includes a stage in which upper and lower side molds are moved inward in a tire axial direction so as to deform the vulcanized tire in a direction in which a bead width of the vulcanized tire is decreased, and a stage in which, in the deformed state of the vulcanized tire, the segments are moved outward in a tire radial direction so that the segments are removed from the vulcanized tire.