Provided is a container structure for attaching sensors to tires and, more particularly, to a container structure for attaching sensors to tires, the container structure being able to prevent sensors attached to tires from being damaged by intense heat. The container structure can include: a bottom container that is attached to the inner liner of a tire; a top container that extends from the top of the bottom container and has an insertion space in which a sensor can be inserted; and a channel part that is formed on the inner side of the top container, in which the channel part is provided such that air can cool the sensor by flowing inside and outside with the sensor inserted in the top container.

A tire and securing element assembly includes a tire inflated at a first pressure and a securing element. The securing element is an inflatable hoop inflated at a second pressure at least 10% greater than the first pressure. The securing element abuts an inner surface of the tire across 30-90% of a tread width. The securing element has a cross sectional area between about 0.4 and 47.0 cm.sup.2.

An assembly (100) for an inner tube (110) for a tire or of an inner tube (110) for a tire, includes a base film (101, 201), which is forming a part of the inner tube (110) or configured to be attached to the inner tube (110). The assembly (100) includes a ring (102), which is inserted into a hole through the base film (101, 201), the ring (102) having internal threads of a fasten mechanism. The assembly (100) has a plug (103), which is removably insertable in the ring (102), the plug (103) including external threads of the fasten mechanism, a first end having a first surface (103a) adapted to face outwards a cavity of the inner tube when inflated, and a second end having a second surface (103b) adapted to face inwards the cavity of the inner tube and adapted for attaching a module (104) having an electronic device.

A tire including a rubber sheet which covers an end of the carcass ply which has been folded back and an RFID tag serving as an electronic component provided between the bead filler and the rubber sheet, in which the bead filler is formed in an annular shape, the rubber sheet is formed in an annular shape by one end side and another end side of a long sheet being joined, and the RFID tag serving as the electronic component is disposed between the bead filler and the rubber sheet at a joint part which is a portion of the rubber sheet which is joined.

The present disclosure relates to a method and manufacturing method for a tire tread composition having absorption properties with high electric conductivity and excellent wear resistance. Specifically, the present disclosure relates to the fabrication of a tire composition to be used as a non-pneumatic tire, the tire composition can be used as a mobile electrode with a water supply means that can identify the location of defects in the buried conductor using the tire electrode manufacturing with improved conductivity and contact resistance with the ground even though the tire compound has wear resistance by lowering the water swelling rate compared to the previous technology.

A process for manufacturing a rubber patch comprising a radiofrequency transponder, the patch having a first layer and a second layer, the method comprising moulding and vulcanizing a first layer, the exterior surface of which comprises a cavity able to receive a radiofrequency transponder, placing a transponder in the cavity, and then placing and vulcanizing a second layer in order to embed the transponder between the two layers.

The embodiments described herein generally relate to an electronic communication module suitable for incorporating into a tire or tire retread, where the electronic communication module comprises a radio device having at least a portion of its outer surface surrounded by a rubber composition. Certain embodiments also relate to tires or tire retreads containing the electronic communication module. In addition, certain embodiments relate to methods for improving the readability of a radio device incorporated into a tire or tire retread.

The embodiments described herein generally relate to an electronic communication module suitable for incorporating into a tire or tire retread, where the electronic communication module comprises a radio device having at least a portion of its outer surface surrounded by a rubber composition. Certain embodiments also relate to tires or tire retreads containing the electronic communication module. In addition, certain embodiments relate to methods for improving the readability of a radio device incorporated into a tire or tire retread.

Described herein are systems and methods for determination of rolling resistance from a sensor or sensors in a tire or tires for application in smart cars to provide feedback to interested parties, such as Departments of Transportation or tire manufacturers.

A rubber article having an electronics attachment mechanism is provided. In one embodiment, the rubber article is a tire, comprising: a tread surface; an inner surface; and a tire body contained between the tread surface and the inner surface; wherein the tire body comprises a cavity having a cavity major width in at least one of an axial direction and a circumferential direction, wherein a channel extends between the cavity and the inner surface, wherein the channel has a channel major width in at least one of the axial direction and the circumferential direction, and wherein the cavity major width is greater than the channel major width.