A positioning device for keeping a monitoring device for tyres of vehicle wheels in an installation condition, includes: two separate active portions, each having a main surface the shape of which matches that of a respective portion of an outer surface of a monitoring device, said separate active portions being adapted to cooperate with at least base portions of said monitoring device so that, when said positioning device is associated with said monitoring device, the base portions of said monitoring device are maintained at a given mutual distance by said active portions.

A carcass ply is applied around an outer surface of a building drum according to an application diameter larger than the fitting diameter of a tyre. Coaxially engaged around each of the end flaps is an annular anchoring structure defining the fitting diameter. A pair of sidewalls is manufactured by laying of a continuous elongated element in the form of approached coils on the carcass sleeve. An outer sleeve, including at least one belt structure possibly associated with a tread band, is coaxially centered around the carcass sleeve. Through axial approaching of two halves forming the building drum, the carcass sleeve is shaped into a toroidal configuration to determine application of same against a radially internal surface of the outer sleeve.

A wheel holder (1) for clamping attachment to a wheel (9), in particular to a wheel (9) of a motor vehicle, and for attaching a target (5) for vehicle wheel alignment measurement, comprises a base body (10) having a central portion and at least two, in particular three, arms (22, 23, 24) extending radially outwards from the central portion of the base body (10). Each of the arms (22, 23, 24) has a movable element (32a, 33a, 34a) which is movable relative to the base body (10) in the radial direction in order to vary the length of the arm (22, 23, 24) in the radial direction; a pressure element (52, 53, 54), in particular a compression spring, which is arranged and adapted to push the movable element (32a, 33a, 34a) outward in radial direction; and a traction element (62, 63, 63) mechanically coupled to the moveble element (32a, 33a, 34a) and arranged and adapted to pull the movable element (32a, 33a, 34a) inward in radial direction. The wheel holder (1) further comprises a coupling element (60) that mechanically couples the traction elements (62, 63, 63) of the at least two arms (22, 23, 24) to each other.

A positioning device for keeping a monitoring device for tyres of vehicle wheels in an installation condition, includes: two separate active portions, each having a main surface the shape of which matches that of a respective portion of an outer surface of a monitoring device, said separate active portions being adapted to cooperate with at least base portions of said monitoring device so that, when said positioning device is associated with said monitoring device, the base portions of said monitoring device are maintained at a given mutual distance by said active portions.

A system for installing a continuous track on a wheel assembly of a heavy-equipment machine, broadly including an extension assembly with proximal and distal ends; a base assembly removeably connected to the wheel assembly, which functions to provide foundational support for the remaining components of the system; a support assembly for maintaining a portion of the extension assembly properly in position during installation of the continuous track, and an installation bracket assembly attached to the distal end of the extension assembly.

A single-cell workstation for processing a tire-wheel assembly including a tire and a wheel is disclosed. The single-cell workstation includes a mounting and indexing sub-station including a first plurality of tire engaging portions including one or more first tire-engaging surfaces, and a second plurality of tire engaging portions including one or more second tire-engaging surfaces.

A method for installing a monitoring device in a tire for vehicle wheels, includes: providing a monitoring device including: an electronic unit; a connecting member having an upper structure and a lower structure that, in cooperation, define a housing for the electronic unit, the lower structure including two base portions mutually separated by a separation region, each of the base portions having a respective base surface associable with an inner surface of a tire. The method further includes providing a positioning device including two separate active portions, each having a main surface in the shape of which matches that of a respective portion of an outer surface of the monitoring device, the separate active portions being adapted to cooperate with at least the base portions; associating the positioning device with the monitoring device to keep the monitoring device in an installation condition in which the base portions are maintained at a given mutual distance by the active portions; fastening the base portions to the inner surface of the tire; and removing the positioning device.

A carcass ply is applied around an outer surface of a building drum according to an application diameter larger than the fitting diameter of a tyre. Coaxially engaged around each of the end flaps is an annular anchoring structure defining the fitting diameter. A pair of sidewalls is manufactured by laying of a continuous elongated element in the form of approached coils on the carcass sleeve. An outer sleeve, including at least one belt structure possibly associated with a tread band, is coaxially centered around the carcass sleeve. Through axial approaching of two halves forming the building drum, the carcass sleeve is shaped into a toroidal configuration to determine application of same against a radially internal surface of the outer sleeve.

A carcass ply is applied around an outer surface of a building drum according to an application diameter larger than the fitting diameter of a tire. Coaxially engaged around each of the end flaps is an annular anchoring structure defining the fitting diameter. A pair of sidewalls is manufactured by laying of a continuous elongated element in the form of approached coils on the carcass sleeve. An outer sleeve, including at least one belt structure possibly associated with a tread band, is coaxially centered around the carcass sleeve. Through axial approaching of two halves forming the building drum, the carcass sleeve is shaped into a toroidal configuration to determine application of same against a radially internal surface of the outer sleeve.

A nut pickup and fastening device for automatic tire mounting includes a nut setting unit that arranges a plurality of nuts to align with the bolt arrangement of the wheel disk of a vehicle body, and a pickup fastener coupled to the tip of a robot arm. The pickup fastener may include a tool frame unit, a plurality of nut runners provided on the tool frame unit corresponding to the set nuts and configured to provide torque for nut fastening, and a plurality of holding sockets coupled to the tip of each nut runner, configured to pick up and hold the nuts from the nut setting unit.