A chucking apparatus for positioning a tire in a tire uniformity machine includes an upper chuck assembly, a lower chuck assembly operative with the upper chuck assembly to capture a tire therebetween, and a dual piston cylinder coupled to the lower chuck assembly which moves the tire into engagement with the upper chuck assembly. The dual piston cylinder has an axially extending inner piston rod from which axially extends a field-replaceable inner piston stem.

A bottle cap comprising a case is provided; and an accommodating hole is axially formed in the case; an inlet pipe is arranged on an external side surface of the case; a limit flange is formed on an inner side surface of the accommodating hole, and the limit flange and an inner side surface of the accommodating hole above the limit flange cooperatively form a first recess; and the bottle cap further comprises a flow path switching element which is rotatably arranged in the first recess; a protruding body is arranged on the bottom of the limit flange, and a first through-hole is formed in the limit flange and the protruding body; and a plug is movably arranged in the first through-hole; The bottle cap of the present application has a simple structure and good practicability.

A method of measuring thickness of a material generally includes applying an oscillating signal to a first electrode at a fixed frequency, passing the signal through the material to a second electrode, and measuring the magnitude of the signal reflected back to the first electrode. The thickness of the material is determined based on the measured magnitude of the reflected signal by: 1) comparing the determined magnitude to a predetermined baseline to establish a difference; and 2) identifying the thickness based on the difference. Related apparatuses are also disclosed. The material may be a vehicle tire.

Tire bead holding pliers includes a first jaw having a lipped plate configured to engage an outboard side of a wheel rim to locate the pliers, and a second jaw defined by a first and second hook and configured to curve around the wheel rim, move toward the first jaw, and engage an inboard side of the wheel rim as the pliers are tightened. The first hook has a first concave portion facing away from the first jaw and configured to receive a bead. The second hook extends from the first hook opposite the first concave portion, has a second concave portion facing the first jaw, and clamps the wheel rim therebetween. During tire installation or removal, the bead is hooked onto the second jaw, which holds the bead in place during the operation in a hands-free fashion.

Tire bead holding pliers includes a first jaw having a lipped plate configured to engage an outboard side of a wheel rim to locate the pliers, and a second jaw defined by a first and second hook and configured to curve around the wheel rim, move toward the first jaw, and engage an inboard side of the wheel rim as the pliers are tightened. The first hook has a first concave portion facing away from the first jaw and configured to receive a bead. The second hook extends from the first hook opposite the first concave portion, has a second concave portion facing the first jaw, and clamps the wheel rim therebetween. During tire installation or removal, the bead is hooked onto the second jaw, which holds the bead in place during the operation in a hands-free fashion.

A storage maintains coefficients that map histogram data elements to tire wear, the coefficients being trained based on a correlation of histogram data to measured tire wear. A processor is programmed to receive a wear data histogram from a vehicle, utilize the coefficients to translate the wear data histogram into a measure of physical tire wear; and send an alert message indicating the estimated tire wear.

A rotating body load measuring device (100) according to the present invention detects a force acting on a rotating body (30) that is formed in a columnar shape and rotates around a central axis (L60) of a shaft body (60) protruding from a center of an end face, in a state where a main load is applied to the rotating body (30) in a main load direction (P) that is one direction in a radial direction, and includes a load cell (70) having a measurement center (C70) and capable of measuring forces acting in at least three directions with the measurement center (C70) as a reference, in which the load cell (70) is disposed such that the measurement center (C70) and the central axis (L60) overlap when viewed in the main load direction (P), and is connected to the shaft body (60).

Devices are taught for filling a tire with air, gas or a liquid and repairing the tire. In one embodiment, the tire repair tool discloses an transmittal control section, with the transmittal control section comprising a proximal end, the proximal end having an opening a distal end, with the distal end having a centralized opening to align with a punctureable seal at a proximal end of a gas cartridge; a passageway positioned between the proximal end of the gas cartridge and the distal end; and a puncture tool which can puncture the punctureable seal of the gas cartridge. The puncture tool is positioned at the distal end of the transmittal control section along the air passage way. An insertion tube comprises an air inlet at a distal end of the insertion tube which is connected to the opening of the proximal end of the transmittal control section. A gas outlet passes air from a gas cartridge through the air passage way through the transmittal control section into the air inlet of the insertion tube and through the gas outlet.

Tyre suitable for running flat comprising a crown, two sidewalls and two beads, a carcass reinforcement anchored in each bead and a sidewall insert placed in each of the two sidewalls axially internally relative to the carcass reinforcement, such that it is equipped with an electronic device comprising at least one radiofrequency transponder and such that the electronic device is embedded in one of the sidewall inserts.

A tire testing machine is for testing a tire, comprising a free roller section configured to include a plurality of rollers having an endmost roller disposed downstream of a lubricator in a conveying direction and farthest from a predetermined reference position, the endmost roller being disposed such that a horizontal distance from the reference position is equal to or greater than a radius of a largest of a plurality of tires set in advance as objects of application of a lubricant.