A tire changer which comprises a mounting device for receiving at least a wheel rim of a wheel/tire assembly, wherein the mounting device has an axis (S), a roller which is able to contact a peripheral surface of the wheel/tire assembly and to apply a predetermined force to the peripheral surface of the wheel/tire assembly, a control device for controlling the predetermined force applied by the during a rotation of the wheel/tire assembly about the axis (S) of the mounting device and a sensor device for measuring force variations acting between the peripheral surface of the wheel/tire assembly and the roller, wherein supports of the roller and of the mounting device are designed for a relative movement of the roller and of the mounting device towards each other along a straight line to apply the predetermined force to the peripheral surface of the wheel/tire assembly.

This rolling resistance measurement device for measuring the rolling resistance of a tire comprises: a cylindrical load wheel that has an outer circumferential surface that is in contact with the tread surface of a tire; a bearing part that rotatably supports the load wheel or tire; a load measurement unit that measures the load applied to a rotary shaft for the load wheel or tire; a supply part that supplies a lubricating oil to the bearing part; and a control unit. The control unit comprises a parasitic loss acquisition unit that acquires the parasitic loss accompanying the rotation of the tire T and load wheel and a supply control unit that controls the supply part on the basis of the acquired parasitic loss.

Provided is a tire transport method for a tire inspection system in which a tire transported from the upstream side is fastened by an upper rim and a lower rim, and a measurement is performed, wherein the method includes transport stem in which a transport mechanism having a pair of transport units split in the width direction transports the tire to a fastening position for fastening, and a parting step in which the pair of transport units is parted in the width direction, such that it is possible for the lower rim to pass between the pair of transport units.

Disclosed herein are various embodiments relating to devices, systems and methods relating to the mounting and inflating of tires for use in automotive applications. There is a need in the art for improved devices, systems and methods for tire mounting and inflation, so as to allow a user to prepare racing tires without mounting on a rim.

A station for checking tyres includes a support structure defining an operating space for receiving a tyre and an overturning device with grip elements for engaging a radially outer portion of the tyre. A checking device includes a mechanical arm and at least one sensor associated with the mechanical arm. The overturning device overturns the tyre around an overturning axis perpendicular to a rotation axis of the tyre when the tyre is in the operating space. The mechanical arm is operatively active within the operating space and carries the sensor at least partially within the tyre for executing checks on an inner surface of the tyre housed in the operating space.

A tire uniformity tester having: a spindle capable of rotating while holding a tire; a drum; a pressing mechanism that rotatably supports the drum and makes it possible to press a tire attached to the spindle into the drum through the relative movement of the drum and spindle; a uniformity measurement unit for measuring the uniformity of the tire during forward rotation and reverse rotation; and a control device. The control device controls the driving of the rotation of the spindle and the relative positions of the spindle and drum so that when the rotation direction of the spindle is reversed, the spindle and drum are separated from each other such that the spindle rotation speed reaches zero in a state in which the outer peripheral surface of the drum and the tire tread surface are not in contact with each other.

A tire changer with a controller includes a with a mount assembly adapted for contacting a wheel assembly to mount the wheel to a rotating spindle. The tire changer controller is configured to regulate the operation of a motor, and which is operatively connected to the rotating spindle to rotate the wheel assembly. A sensor coupled to the controller provides a data representative of the rotational position of the wheel assembly about a rotational axis. The controller is further configured to engage a load roller with the wheel assembly to apply a radial force to a tire mounted on a rim of the wheel assembly during rotation of the wheel, and to regulate the operation of a tire handling means and mount assembly, enabling identification, optional marking, and adjustment of the tire angular mounting position relative to the wheel rim.

A tyre testing device and clamping system is capable of supporting inflation of tyres having narrower or collapsed sidewalls insofar that the tyre is sealed and inflated at a smaller rim width and subsequently it is open to a specific rim width. The present system is also capable of pressing the sidewalls having larger width to a specified rim width. The present teaching is particularly suitable for spindles of tyre testing device.

A tyre testing device and clamping system is capable of supporting inflation of tyres having narrower or collapsed sidewalls insofar that the tyre is sealed and inflated at a smaller rim width and subsequently it is open to a specific rim width. The present system is also capable of pressing the sidewalls having larger width to a specified rim width. The present teaching is particularly suitable for spindles of tyre testing device.

This tire electrical resistance measurement device is provided with an inner circumferential-side probe and an outer circumferential-side probe. The inner circumferential-side probe is disposed on the inner circumferential side of a tire and is capable of coming into contact with the inner circumference of the tire. The outer circumferential-side probe is disposed on the outer circumferential side of the tire and is capable of coming into contact with a tread portion of the tire by moving relative to the tire in a radial direction of the tire. The outer circumferential-side probe extends in the width direction of the tire and is deformable in the radial direction so as to follow a protrusion-recess shape of the tread portion in the width direction. The outer circumferential-side probe is electrically conductive at least at a contact surface that comes into contact with the tread portion.