Presented are mobile charging stations for recharging electrified vehicles, methods for making/using such mobile charging stations, and parking facilities equipped with such mobile charging stations. A mobile charging station includes a frame with multiple drive wheels and a prime mover operable to drive the wheels to propel the charging station. A hydrogen storage container and fuel cell are mounted to the frame. The fuel cell oxidizes hydrogen received from the storage container to generate electrical current. An electrical coupling mechanism connects the fuel cell to a traction battery pack of an electric-drive vehicle. A resident or remote controller is programmed to receive charge requests to recharge vehicles, and responsively determines path plan data for the mobile charging station. The controller commands the prime mover to propel the mobile charging station from the charger's origin to a charger destination, and enables the fuel cell to transmit electrical current to the vehicle.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are envisioned. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are envisioned. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.

A method of assembling a vehicle driveline component that includes: positioning a rotary component and first race member on a fixture such that the first race member is concentric with a first race of the component; offsetting the first race member along the rotational axis relative to the first race; providing an annular bearing arrangement having balls and spacers; positioning the arrangement such that the centers of the balls are along a loading cylinder disposed concentrically about the rotational axis; moving the arrangement so the balls seat in the first race and the centers are distributed along an installation circle that is: a) larger in diameter than the loading cylinder if the first race is an outer race of a bearing assembly; or b) smaller in diameter than the loading cylinder if the first race is an inner race of a bearing assembly. A related tooling system is also provided.

A method of assembling a vehicle driveline component that includes: positioning a rotary component and first race member on a fixture such that the first race member is concentric with a first race of the component; offsetting the first race member along the rotational axis relative to the first race; providing an annular bearing arrangement having balls and spacers; positioning the arrangement such that the centers of the balls are along a loading cylinder disposed concentrically about the rotational axis; moving the arrangement so the balls seat in the first race and the centers are distributed along an installation circle that is: a) larger in diameter than the loading cylinder if the first race is an outer race of a bearing assembly; or b) smaller in diameter than the loading cylinder if the first race is an inner race of a bearing assembly. A related tooling system is also provided.

Provided is a part positioning jig and a part positioning device using the same that allow the positioning in setting an assembling part on a dedicated tray to be carried out through a simple operation with no need for skill, whereby the part assembling work can be made more efficient and simpler. A part positioning jig is mounted to a bottom face of a part having machining reference holes for thereby aiding positioning of the part in assembling thereof, the part positioning jig including a base member in which at least one clamp installation part is disposed, an inner diameter clamp being installed in the clamp installation part such that a clamp head of the inner diameter clamp is protruded from a top face of the clamp installation part.

A conversion kit for replacing a bottom-mounted differential with a top-mounted differential using pre-existing mounting features of a vehicle. The kit includes a pair of support members, a pair of mounting gussets, a support plate, and a skid plate. The support members are coupled along top side edges of the top-mounted differential. The support members are coupled to forward and rearward frame members within a differential cavity of a vehicle using the mounting gussets and tabs on the support members and using fasteners installed in pre-existing mounting holes in the vehicle. The top-mounted differential is positioned to maintain substantially the same location and orientation of couplings with a drive train of the vehicle as those used by the bottom-mounted differential. The support plate extends between the support members and optionally supports a winch. The skid plate encloses a clearance opening formed in a pre-existing armor plate of the vehicle.

A conversion kit for replacing a bottom-mounted differential with a top-mounted differential using pre-existing mounting features of a vehicle. The kit includes a pair of support members, a pair of mounting gussets, a support plate, and a skid plate. The support members are coupled along top side edges of the top-mounted differential. The support members are coupled to forward and rearward frame members within a differential cavity of a vehicle using the mounting gussets and tabs on the support members and using fasteners installed in pre-existing mounting holes in the vehicle. The top-mounted differential is positioned to maintain substantially the same location and orientation of couplings with a drive train of the vehicle as those used by the bottom-mounted differential. The support plate extends between the support members and optionally supports a winch. The skid plate encloses a clearance opening formed in a pre-existing armor plate of the vehicle.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are envisioned. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.

Land vehicles, modular systems for forming monocoques of land vehicles, and methods of forming monocoques of land vehicles using modular systems are envisioned. In certain embodiments, the land vehicles are provided as delivery vehicles and/or utility vehicles. A land vehicle includes a monocoque supporting a plurality of wheels to permit movement of the vehicle relative to an underlying surface in use of the land vehicle.