A system for modifying the range capability of an electric vehicle includes a vehicle body having a front axle and a rear module secured to the vehicle body. The rear module includes a rear axle and the rear module is detachable from the vehicle body and replaceable with another rear module. The rear modules may include different range extension capabilities. The rear modules may include a battery or a combustion engine that may supplement the standard battery and electric motor of the vehicle. A pair of laterally translatable pins of the rear module may be moveable into and out of engagement with the vehicle body. The rear module may also include vertically extending posts that engage with the vehicle body. The vehicle body may be raised to disengage the posts from the vehicle body.

An example vehicle frame subassembly for a vehicle is disclosed herein. The example vehicle frame subassembly includes a first frame portion defining a wheel axle, and a second frame portion extending from the first frame portion at an angle from the wheel axle, the wheel axle at a first height, an end of the second frame portion at a second height different from the first height, the vehicle frame subassembly to configure a vehicle for a selected ride height when the vehicle frame subassembly is implemented in the vehicle, the second height corresponding to the selected ride height.

A universal assembly platform for lightweight vehicles, wherein the platform comprises a main vehicle chassis structure, a front suspension system connected to the main vehicle chassis structure and to which one or more front wheel assembly is mountable, and a rear suspension system connected to the main vehicle chassis structure and to which one or more rear wheel assembly is mountable. The rear suspension system is connected to the main vehicle chassis structure such that when the one or more rear wheel assembly is mounted to the rear suspension system a rear wheel of the one or more rear wheel assembly defines the distal end of an overall length of the vehicle.

The invention relates to a method, performed by a control device associated with a vehicle assembled from a set of modules, the vehicle comprising: at least one drive module; and at least one functional module, wherein the at least one drive module comprises a pair of wheels and is configured to be autonomously operated and drive the assembled vehicle, the method comprising: identifying an erroneous function of the at least one drive module; physically connecting an autonomously operated assisting drive module to the at least one drive module; and controlling the assisting drive module to perform at least the erroneous function of the at least one drive module.

A vehicle body of a vehicle may include a floor portion which is provided for a driving unit of the vehicle to be mounted therein, and a seat frame member mounted with a seat of the vehicle while being selectively coupled to a plurality of points on the floor portion, to form the vehicle body, for achieving seat mounting and vehicle body configuration.

A military vehicle includes a passenger capsule, a front module coupled to a front end of the passenger capsule, and a rear module coupled to a rear end of the passenger capsule. The passenger capsule has a frame rail-less monocoque hull structure. The front module includes a first longitudinal frame member coupled to the front end of the passenger capsule proximate a first side thereof, a second longitudinal frame member coupled to the front end of the passenger capsule proximate an opposing second side thereof, and an underbody support structure coupled to the front end of the passenger capsule, the first longitudinal frame member, and the second longitudinal frame member. The underbody support structure is positioned beneath the first longitudinal frame member and the second longitudinal frame member.

A universal axle-hub assembly is provided for an off-road vehicle. The universal axle-hub assembly comprises a wheel hub that receives a constant velocity (CV) axle snout into an opening extending through an axle support of the wheel hub. An outboard-most portion of the opening is a splined portion that engages with similar splines disposed on an outboard-most portion of the CV axle snout. An inboard-most portion of the opening is a smooth portion that receives a smooth portion of the CV axle snout. The axle support extends through an entirety of the width of a bearing that supports the wheel hub, such that the bearing supports the smooth portion of the CV axle snout and substantially eliminates shear forces acting on the splined portion of the CV axle snout. A bearing carrier supports the bearing and may be fastened onto a trailing arm or a spindle of the off-road vehicle.

A system for modifying the structure of a unibody vehicle includes a vehicle body having a unibody construction and a first module attached to the vehicle body. The first module is removable from the vehicle body and replaceable with a second module having a different size and/or functionality. A rear portion of the first module may be removed from the first module and attached to the second module. The first module may be a stock cargo module, and the second module may be an aftermarket module. The rear portion may be a stock tail tamp and/or sensor module. The rear portion may be removed before or after removing the first module from the vehicle body, and may be attached to the second module before or after attaching the second module to the vehicle body.

The disclosure relates to an unmanned vehicle chassis (1). The unmanned vehicle chassis (1) comprises at least two chassis units (11), the at least two chassis units (11) being spliced to form the unmanned vehicle chassis (1). The unmanned vehicle chassis (1) is formed by splicing at least two chassis units (11), so unmanned vehicle chassis (1) of different sizes can be formed by splicing different numbers of chassis units (11) to carry cargo boxes of different sizes, without the need to specially design and develop different chassis for cargo boxes of different sizes, thereby reducing the research and development cost. The disclosure also relates to an unmanned vehicle.