A tire manufacturing device includes: a molding drum; a first moving portion in which the molding drum moves in order to mold an inner liner layer on the molding drum; a second moving portion in which the molding drum moves in order to mold a ply layer on the inner liner layer; a stitcher position where a carcass band is formed by performing pressing from above the ply layer laminated on the inner liner layer; and a transfer position where the carcass band is transferred from the molding drum to a transport device that transports the carcass band to a subsequent process, and the stitcher position and the transfer position are adjacent to each other.

A method of forming a non-pneumatic tire is provided that includes the steps of providing an outer shear band ring (12) that has an inner diameter. An intermediate section (14) is provided that has a supporting structure. An outer diameter (102) of the intermediate section (14) in the uncompressed state is greater than the inner diameter (70) of the outer shear band ring (12). The intermediate section is compressed from the uncompressed state to a compressed state, and is inserted inside of the outer shear band ring (12). Compression of the intermediate section is released when the intermediate section is inside of the outer shear band ring, and the intermediate section (14) moves from the compressed state to a state of interference fit with the outer shear band ring (12).

A method of forming a non-pneumatic tire is provided that includes the steps of providing an outer shear band ring (56) and an intermediate section (14) that has a supporting structure (16). The intermediate section (14) is collapsed from an uncollapsed state to a collapsed state. The intermediate section in the collapsed state is inserted inside of the outer shear band ring such that the outer shear band ring is located outward from the intermediate section in a radial direction of the tire. Compression of the intermediate section (14) is released when the intermediate section (14) is inside of the outer shear band ring (56) so that the intermediate section returns to the uncollapsed state from the collapsed state. In one embodiment, the compressing step of the intermediate section (14) is performed by a compression device (68) that has a plurality of gripping members.

A tire molding apparatus includes: a moving body which moves and stops along a rail; and a position information acquiring device which acquires information of a stop position of the moving body, in which the position information acquiring device includes at least a reflector and a sensor as components, in which one component of the reflector and the sensor is provided facing the moving body in a stopped state, in which the moving body is provided with the other component of the reflector and the sensor, in which the one component is disposed at a position outside a movable range of the moving body, in which a reflection surface of the reflector is inclined with respect to an extension direction of the rail, and in which the information of the stop position of the moving body is acquired on the basis of the distance measured by the sensor.

To provide a transfer device for transferring a tire constituent member from a first drum to a second drum in a tire forming apparatus. The transfer device includes a main body part having a space for receiving the first drum from one side in an axial direction in a state of being arranged on the same axis as that of the first drum in which the tire constituent member is formed, and a holding device provided so as to hold the tire constituent member from an outer peripheral side in a state where the first drum is arranged in the space. A detection device is installed on an end face on the one side in the axial direction of the main body part and the detection device detects the tire constituent member formed on the first drum during a receiving operation of the first drum into the space.

A plant for building tyres for vehicle wheels, comprises a sleeve building area (A) in which devices for obtaining carcass sleeves (12) operate, a crown building area (B) in which devices for obtaining crown structures (7) operate and a shaping station (14) for shaping each carcass sleeve (12) according to a toroidal configuration. Transfer devices (19) for transferring the carcass sleeves (12) from the sleeve building area (A) to the shaping station (14), by means of a first translator (20) configured for picking up each carcass sleeve (12) from an outlet station (D) of the sleeve building area (A), a second translator (21) configured for releasing each carcass sleeve (12) in the shaping station (14), and a storage device (22) operatively interposed between said first translator (20) and second translator (21).

Exemplary embodiments of the subject invention comprise methods and apparatus for mounting a tread ring onto a tire carcass. Such methods include providing a tire tread ring having opposing side edges, arranging the tread ring in an initial ring arrangement in communication with a pressure source, and expanding the tread ring radially outward from the initial ring arrangement to an expanded arrangement. The pressure source is in communication with an outer side of the tread ring, the tread ring being expanded by applying vacuum pressure along the outer side of the tread ring supplied by the pressure source. Such methods also include inserting a tire carcass within a central opening of the tread ring while in the expanded arrangement, contracting the tread ring into an installed arrangement about an outer surface of the tire carcass, and, releasing the vacuum along the outer side of the tread ring.

A plant for building tyres of at least two different models for vehicle wheels, includes at least a tyre building line, which in turn, includes: a plurality of work stations arranged according to a sequential series, each work station being adapted for building at least one structural component of each tyre and assembling at least one elementary component; at least one handling device for the tyres being processed on the respective forming supports associated to each work station; and at least one transfer device adapted for transferring the tyre being processed on its forming support from any first work station of the sequential series to any other second work station not adjacent thereto of the sequential series, so that the tyre being processed on its forming support only passes in the first and second work stations.

A plant for building tyres for vehicle wheels, includes a sleeve building area in which devices for obtaining carcass sleeves operate, a crown building area in which devices for obtaining crown structures operate and a shaping station for shaping each carcass sleeve according to a toroidal configuration. Transfer devices for transferring the carcass sleeves from the sleeve building area to the shaping station, by a first translator configured for picking up each carcass sleeve from an outlet station of the sleeve building area, a second translator configured for releasing each carcass sleeve in the shaping station, and a storage device operatively interposed between said first translator and second translator.

The present invention is relative to a method for building tyres for vehicle wheels and to a transfer device (16) of an apparatus for building tyres for vehicle wheels. The centring device (16) comprises: an annular support structure (18); gripping elements (19) arranged as a ring on the annular support structure (18) and having gripping surfaces (20) directed radially towards a longitudinal axis (Z-Z) of the transfer device (16); a measurement device (30) mounted on the annular support structure (18). The measurement device (30) is configured for detecting the centring between the transfer device (16) and a drum (12, 13) situated within the transfer device (16). The transfer device (16) is configured for picking up the tyre being processed (14, 15) from the drum (12, 13) on which the tyre being processed is arranged or for depositing a tyre being processed (14, 15) on the drum (12, 13).