A multi-functional active container (e.g., luggage or suitcase) with a plurality of sensors and actuators is described. The container may include a body defining an enclosure and having at least one opening. The container may include a processor, a wireless receiver, and an electronically controllable lock. The processor can selectively lock or unlock the electronically controllable lock based on signals received via a wireless receiver (e.g., via Wi-Fi or BLUETOOTH connections). In some examples, a distance between the active container and a remote device (e.g., a smart phone) can be determined (e.g., based on relative GPS signals or connection strength) and if the distance exceeds a threshold, the electronically controllable lock can be activated to secure the container. Further, the container may include a rechargeable power source for powering external devices and an integrated weight sensor for detecting the weight of the container.

A multi-functional active container (e.g., luggage or suitcase) with a plurality of sensors and actuators is described. The container may include a body defining an enclosure and having at least one opening. The container may include a processor, a wireless receiver, and an electronically controllable lock. The processor can selectively lock or unlock the electronically controllable lock based on signals received via a wireless receiver (e.g., via Wi-Fi or BLUETOOTH connections). In some examples, a distance between the active container and a remote device (e.g., a smart phone) can be determined (e.g., based on relative GPS signals or connection strength) and if the distance exceeds a threshold, the electronically controllable lock can be activated to secure the container. Further, the container may include a rechargeable power source for powering external devices and an integrated weight sensor for detecting the weight of the container.

A multi-functional active container (e.g., luggage or suitcase) with a plurality of sensors and actuators is described. The container may include a body defining an enclosure and having at least one opening. The container may include a processor, a wireless receiver, and an electronically controllable lock. The processor can selectively lock or unlock the electronically controllable lock based on signals received via a wireless receiver (e.g., via Wi-Fi or BLUETOOTH connections). In some examples, a distance between the active container and a remote device (e.g., a smart phone) can be determined (e.g., based on relative GPS signals or connection strength) and if the distance exceeds a threshold, the electronically controllable lock can be activated to secure the container. Further, the container may include a rechargeable power source for powering external devices and an integrated weight sensor for detecting the weight of the container.

A kit for a dual wheel assembly for a vehicle is provided having a drive shaft adapter with an outwardly projecting extension attachable to an inner wheel by a flange and a drive shaft coupler having an outwardly projecting receiver attachable to an outer wheel with a flange, whereby drive shaft extension and receiver are telescopically engageable over a range of distances, which allows the inner wheel and outer wheel to be mounted with the tires abutting or the tires spaced apart by incorporating a spacer element into the assembly.

A kit for a dual wheel assembly for a vehicle is provided having a drive shaft adapter with an outwardly projecting extension attachable to an inner wheel by a flange and a drive shaft coupler having an outwardly projecting receiver attachable to an outer wheel with a flange, whereby drive shaft extension and receiver are telescopically engageable over a range of distances, which allows the inner wheel and outer wheel to be mounted with the tires abutting or the tires spaced apart by incorporating a spacer element into the assembly.

A wheel for a pneumatic tire has a rim with one monolithic bead seat and a removable beat seat. The removable bead seat has two halves that embrace the rim and engage a groove to retain the tire. The removable bead seat may have a second lip either monolithically formed or as a part of a separate retainer that bolts to the bead seat. The wheel may be made from aluminum alloy.

A wheel for a pneumatic tire has a rim with one monolithic bead seat and a removable beat seat. The removable bead seat has two halves that embrace the rim and engage a groove to retain the tire. The removable bead seat may have a second lip either monolithically formed or as a part of a separate retainer that bolts to the bead seat. The wheel may be made from aluminum alloy.

A dual-wheel differential system includes an in inner hub, an outer hub, and a differential assembly mechanically coupled between the inner hub and the outer hub to allow the inner hub and the outer hub to rotate at different angular speeds. A user-actuatable locking system is configured to mechanically lock the inner hub to the outer hub. The user-actuatable locking system may include at least one axially-translating or radially-translating locking pin configured to engage at least one of the inner hub and the outer hub. The locking system may be pneumatically, hydraulically, or electromechanically actuated.

A dual-wheel differential system includes an in inner hub, an outer hub, and a differential assembly mechanically coupled between the inner hub and the outer hub to allow the inner hub and the outer hub to rotate at different angular speeds. A user-actuatable locking system is configured to mechanically lock the inner hub to the outer hub. The user-actuatable locking system may include at least one axially-translating or radially-translating locking pin configured to engage at least one of the inner hub and the outer hub. The locking system may be pneumatically, hydraulically, or electromechanically actuated.

Disclosed herein is a universal rotating hub that can facilitate movement of an automobile or other vehicle that has been rendered immobile by a condition that prevents rotation of one or more of the vehicle's wheels. The universal rotating hub can comprise a wheel flange comprising an axle bore adapted to receive an axle and a plurality of apertures adapted to receive a plurality of different lug bolt patterns of a plurality of respective wheel hubs. The universal rotating hub can further comprise a rotating flange adapted to be coupled to a wheel. The rotating flange can comprise a plurality of lug holes adapted to receive a plurality of lug bolts of the wheel. The universal rotating hub can further comprise a bearing coupled at a first end to the wheel flange and at a second end to the rotating flange. The bearing can be adapted to enable a rotation of the rotating flange.