System and method for obtaining and recording information about cargo includes a frame defining a cargo-receivable compartment, a position determining system at least partly on the frame and that allows for determination of position of the frame, an identification system on the frame that obtains information about cargo when present in the compartment, a memory component that receives and records information about position and movement of the frame, and the obtained information about cargo when present in the compartment in association with a unique identification of the frame, and a communications system on the frame to enable communication of information to and from the memory component.

A system for inflating vehicle tires including: (1) a valve positionable between an opened and a closed position; (2) a pneumatic pathway having a pressure value and in fluid communication with an outlet of the valve and an input of a pressure switch; (3) a vehicle tire in fluid communication with the pneumatic pathway; and (4) the pressure switch configured to actuate the valve to the opened position when the pressure value of the pneumatic pathway drops below a threshold value; and wherein an inlet of the valve is configured to be in fluid communication with an air tank having a pressure value.

An apparatus for dispensing pressurized air and/or tire sealant from a pressurized can. The apparatus comprising a nozzle and a locking element for the nozzle and/or a cap including a free length of hose that is positioned within the cap. The locking element locks the nozzle in the non-dispensing position for safety during non-use or in a dispensing position for ease of use. The hose provides an extension for the nozzle for hard to reach places, and stores fully wound within the cap, such as along the inner circumference of the cap.

A valve assembly for controlling inflation and deflation is provided. The valve assembly includes a rapid-deflate valve cover having a central passage extending through the annular body; an internally threaded portion positioned within the central passage configured to threadingly interface with an externally threaded portion of a valve stem; and a pressure relief formed in the internally threaded portion. The rapid-deflate valve cover can include a valve core positioned within the central passage near the proximal end and configured to selectively permit gas flow from the proximal end into the central passage past the valve core. When the rapid-deflate valve cover is in a closed position, the annular body contacts the valve stem to prohibit gas flow through the central passage. When the rapid-deflate valve cover is in the open position, the body is positioned away from the valve stem to permit gas flow into the central passage.

The invention relates to a tyre valve for a pneumatic tyre of a vehicle, having a valve stem extending from the air inlet end to the air outlet end and having an outside thread on its outside circumference and a collar at its air outlet end for a rim well carrying the pneumatic tyre and a fastening thread for an air pressure sensor or other device to be fastened to the valve stem and positioned inside the pneumatic tyre,

exhibiting a union nut with an inside thread for screwing onto the outside thread in order to clamp the rim base between the union nut and the collar, with the valve stem being inserted through a rim bore,
with a plastic valve cap, with a deformable element located on the outside circumference of the valve stem and/or an inside circumference of the union nut.

The tyre valve according to the invention is characterised in that the union nut and, if the deformation element is located on the inside circumference of the union nut, also the deformation element, exhibit a minimum inside diameter that exceeds the maximum outside diameter of the valve cap.

A valve stem for controlling inflation and deflation is provided. The valve stem includes a valve body having a central passage and a lateral port venting to the atmosphere. A valve core can be positioned within the central passage and configured to permit gas flow into the central passage. A collar is configured to surround an intermediate portion of the valve body, with the collar movable between a first position, where the collar occludes the lateral port to prohibit gas flow out of the lateral port, and a second position, where the collar opens the lateral port to permit gas flow from the central passage through the lateral port. A pressure set assembly can couple to the valve body and be set to a pressure at which the pressure set assembly closes to prohibit gas flow through the pressure set assembly and through the lateral port.

An inflator cap comprising: an outer cover; an anti-corrosion lining formed in or inside the outer cover; and a magnetic member formed on, in or inside the outer cover, whereby the magnetic member of the inflator cap, once unscrewed from the inflator, will be magnetically attractable on a ferromagnetic object to prevent its loss; or whereby the anti-corrosion lining will preclude a direct contact between the outer cover of the inflator cap and a valve stem of the inflator to prevent from sticking of the oxide of the outer cover once oxidized on the valve stem of the inflator, thereby smoothly unscrewing the cap from the inflator.

Method for controlling a vehicle including a smartphone-engaging coupling element. Data about operational status of the vehicle is transferred from one or more vehicle-resident systems to a smartphone when the smartphone is engaged with the coupling element. Commands are received by the vehicle from the smartphone when the smartphone is engaged with the coupling element, which commands being based in part on data previously transferred from the vehicle-resident system(s) to the smartphone when the smartphone is engaged with the coupling element. A vehicular system, e.g., seat positioning system, mirror positioning system, passenger compartment temperature control system, route guidance or navigation system, changes its operation in accordance with the commands received by the vehicle from the smartphone when the smartphone is engaged with the coupling element.

A valve cap and core tool has an elongate shaft terminated by a valve core head at one end and a valve cap head at a second end. The valve cap head has an elastomeric sleeve that is sufficiently elastic to slightly stretch about and securely engage a valve cap. The valve core head has an elastomeric sleeve, and coaxial with and interior of the sleeve is a rigid tube that terminates distal to the shaft at a bifurcated end. The rigid tube bifurcated end is designed to drop around and engage with a valve core, and with continued rotation unthread the valve core. Within the core of the rigid tube, and preferably securely engaged therewith, is an elastomeric tube. The elastomeric tube is of appropriate diameter and sufficiently elastic to securely grab and retain the valve core.

A valve assembly including a base portion and a cap portion attached to the base portion. The valve assembly also includes a biasing member disposed between the base portion and the cap portion. The biasing member is adjacent a perforation formed in the cap portion. A shuttle assembly is in contact with the biasing member. The shuttle assembly includes a shuttle and a plug member. The plug member is attached to the shuttle.