A vulcanization mold is a mold including blades having a distal end side thick portion and pullout is performed smoothly by the mold without causing any failure, and a pneumatic tire. A vulcanization mold in which a blade or has a blade proximal end portion, a blade distal end side thick portion expanded in a thicknesswise direction on the distal end side, and a blade connection portion that connects the blade proximal end portion and the blade distal end side thick portion to each other is a vulcanization mold in which a blade density that is a number of blades implanted on a sector mold per unit length in a circumferential direction is lower at the blades in circumferential end portion side regions than at the blades in a circumferential central portion side region of the sector mold. Further, a pneumatic tire is manufactured using the vulcanization mold.

A tire mold segment containing a mold surface with a plurality of groove forming and sipe forming protrusions arranged to form tread portions of tires. At the end faces of the tire mold segment, the portion of sipe forming protrusions with an end that terminates at or near the mold segment end face have an increased width to provide a countermeasure against irregular tread wear and tire noise. The sipe forming protrusions having an end that terminates at or near a tire mold segment end face have a width of about 0.7 mm or more. The remaining sipe forming protrusions positioned on the tire mold segment can a reduced thickness to accommodate high sipe density tread designs.

This invention discloses a tire mold comprising a tread mold portion divided into mold segments having transverse edges which are movable between (i) an opened position, wherein the mold segments are spaced apart, and (ii) a closed position, wherein neighboring mold segments are in contact with each other, each of the mold segments comprising blades; wherein at least a first one of said mold segments has laterally extending blades located at a first transverse edge, wherein at least a second neighboring one of said mold segments has laterally extending blades located at a second transverse edge adjacent to the first transverse edge of the first one of said mold segments, and when in the closed position said laterally extending blades of the first one of said mold segments interlock between the laterally extending blades of the second one of said mold segments.

The present invention relates to a set of mould elements comprising main blades and secondary blades, intended to be added to a mould for vulcanizing a tread of a tire, the mould elements being capable of moulding cuts in the tread, characterized in that a main blade comprises at least one assembly device for assembling a secondary blade, the assembly device comprising two series of at least one protrusion arranged facing one another. It is thus possible to ensure a relative positioning and an assembly that can withstand mechanical stresses over the entire height of the blade during moulding/demoulding, while minimizing the volume of material added. This assembly is barely visible on the tire.

An assembly (1) of moulding elements for moulding cuts in a tread of a tire comprises a first sipe blade (2), a second sipe blade (3) and means for assembling the first sipe blade (2) with the second sipe blade (3). The assembly means comprise at least one slot (20) in the thickness of the first sipe blade (2), said first sipe blade (2) having no additional thickness at said slot (20) and a protuberance (30) in the continuation of the second sipe blade (3), said protuberance (30) being able to be inserted into the slot (20). This assembly system is both simple to produce and allows a multitude of configurations of the sipe blades relative to one another.

The present invention includes tire treads having a plurality of sipes (14) where at least one of the opposing sides of the sipe thickness includes a plurality of projections (18, 36) and recesses (20, 38) and a method for forming the same.

A tread block arrangement is for a tire or for a tread band for a tire. The tread block arrangement includes a tread block having at least a first sipe delimited by a first sipe wall, a second sipe wall and a bottom of the sipe. The first sipe wall and the second sipe wall are arranged parallel to each other and define a width (w) of the sipe. At least the first sipe wall has at least one inclined section in which a width of a surface of the first sipe wall in a longitudinal direction of the sipe and the width of the sipe increases towards the bottom of the sipe.

An embodiment of the present invention provides a technique for minimizing the deformation of the shape of a kerf by improving the durability of a blade used in forming the kerf during tire vulcanization. A 3D kerf-forming blade according to an embodiment of the present invention is installed in a tire vulcanization mold for forming a kerf and includes a frame formed in a shape of a plate having a wave shape in a cross section horizontal to a thickness direction and a support formed in a shape of a bar having one side connected to the frame and the other side connected to another frame.

A laminate body of a rubber layer and a resin layer made of a resin, wherein the rubber layer includes a surface-treated superficial layer 4 directly united with the resin layer without any intervening adhesive layer.

A method for producing a mold segment component of a vulcanizing mold for a pneumatic vehicle tire for forming at least one profile block or a region structured in a block-like manner of an altogether curved tread, with a tread outer surface, which mold segment component is built up by means of an additive process, such as selective laser melting, by layer-by-layer planar application and melting of a metal powder on a planar building plate (10) together with a bottom part (7b) and mold elements, such as lamellae (4) and/or microlamellae (11) and/or ribs and/or regions of ribs, wherein mold elements delimit or run around mutually adjacent mold area elements (12) of the bottom part (7b) which have outer surfaces (12a) forming a region of the tread outer surface.

In the additive build-up operation, the mold area elements (12) are each additively built up with a unitary planar outer surface (12a) or with two to three planar outer surfaces (12a) running in a stepped manner in relation to one another, wherein all of the outer surfaces (12a) of the mold area elements (12) run parallel to one another and, with respect to the building plate (10), are surfaces at different levels such that the mutual arrangement of the outer surfaces (12a) of the mold area elements (12) largely approximates to the curvature of the region to be formed of the tread outer surface.