Processes for producing an electric vehicle include manufacture of a lower body skateboard platform including at least energy storage/conversion (batteries within a ladder frame), propulsion, suspension and wheels, steering, crash protection, and braking, and manufacture of a top hat upper portion including at least the vehicle cabin housing various interior components such as passenger seats, frame covers, and a roof headliner, together with steering and acceleration controls. The upper body portion and the lower body platform are manufactured separately in parallel and then merged, which allows for ease of manufacture and a more compact design.

A vehicle is disclosed. The vehicle may include a base portion and a modular portion. The base portion may be a four wheel vehicle having an operator area with seating for at least two occupants in a side-by-side arrangement. The modular portion may be coupled to the base portion resulting in a six wheel vehicle. The wheels of the modular portion may be powered by an engine of the base portion.

An autonomous work vehicle having a chassis, a power system disposed on the chassis, a field wheel system coupled to the chassis and the power system, and a hitch assembly. The power system is configured to power the autonomous work vehicle in an autonomous control mode. The field wheel system is configured to drive the autonomous work vehicle in a field in the autonomous control mode. The hitch assembly is configured to couple to a lead vehicle in a transport mode. The autonomous work vehicle may engage wheels of a transportation wheel system with a road to support the autonomous work vehicle on the road. The autonomous work vehicle may be coupled via the hitch assembly to the lead vehicle, then transported on a road. A brake system of the transportation wheel system may be coupled to the lead vehicle.

A base floor part made of plastic or composite material for a replacement floor for enlarging a rear cargo space of a motor vehicle, such as a compact car or an off-road vehicle, on which a wheelchair can be stored, is described. The base floor part may be connected to the vehicle body. The base floor part may include a preformed marking at which a front end portion can be separated to enable coupling with an extension floor part.

A range includes at least two different motor vehicles with a structural body having a central underbody part delimiting a lower part of a cab. The central underbody part of the first vehicle receives two seats. The central underbody part of the second vehicle receives four seats. Each central underbody part includes first interface elements allowing mounting thereon of components associated with the function of an internal combustion drive engine mounted on a rear structural part of the structural body which is firmly attached to the central underbody part. Each central underbody part also includes second interface elements allowing mounting thereon of components associated with the function of an electric drive motor to be mounted on the rear structural part. A rear edge of the central underbody part of each vehicle is equipped with a same interface element for connection to the rear structural part of the structural body.

A loading system laterally loads and unloads an upper body structure onto a vehicle platform of a motor vehicle. The system includes two loading arms pivotably mounted on lengthwise ends of the vehicle platform. The loading arms jointly swivel between upward and lateral orientations with respect to the vehicle platform and jointly extend and retract. Each loading arm has an engaging portion at a distal end of the respective loading arm to engage a corresponding support portion at a respective lengthwise end of the upper body structure. The loading arms engage and release the upper body structure by swiveling into the lateral orientation and extending and retracting within the lateral orientation. The loading arms mount the engaged upper body structure on top of the vehicle platform by swiveling with the engaged upper body structure into the upward orientation and retracting with the engaged upper body structure within the upward orientation.

The subject matter of this specification generally relates to modular vehicles including separable pod and base units. In some implementations, a computing system installed in a vehicle base identifies a vehicle pod that is detachably connected to a chassis on the vehicle base. In response to identifying that the vehicle pod is detachably connected to the chassis on the vehicle base, a communications link can be established between the computing system installed in the vehicle base and a computing system installed in the vehicle pod. Based on information obtained through the communications link, the computing system installed in the vehicle base can determine a particular configuration of the vehicle pod that is detachably connected to the chassis. The computing system can then verify that the vehicle base can safely transport the vehicle pod while the vehicle pod is detachably connected.

A moving body includes: a first body including at least one wheel, an electric motor and a first secondary battery; and a second body attachable to and detachable from the first body and including an electric power load and a second secondary battery. When the second body is mounted on the first body, at least one of the second secondary battery and the first secondary battery is allowed to be charged in a charging mode including at least one of a first charging mode and a second charging mode. In the first charging mode, the second secondary battery is charged using electric power output from the first secondary battery. In the second charging mode, the first secondary battery is charged using electric power output from the second secondary battery.

The present disclosure relates to a chassis (1) for a motor vehicle, comprising a passenger compartment cell (2), a front frame (3) and a rear frame (4), which are arranged along a longitudinal direction (100) of the chassis (1). The frame front (3) and the rear frame (4) each comprise two longitudinal members (31, 32; 41, 42) and a cross member (35; 45) forming a substantially C-shaped structure. The chassis (1) allows the adjustment of the track width and/or the pitch of the motor vehicle. To adjust the track width, the chassis (1) is adapted for the attachment of each longitudinal member (31, 32; 41, 42) of a frame (3, 4) to the passenger compartment cell (2) at a plurality of positions that are spaced apart in the transverse direction, in such a way as to allow an adjustment of the transverse distance between the two longitudinal members (31, 32; 41, 42). To adjust the pitch, each longitudinal member (31, 32; 41, 42) of a frame (3, 4) is provided with at least one attaching assembly (53) for attaching a suspension (7) of a respective wheel of the motor vehicle. The attaching assembly (53) is adapted for attaching the suspension (7) at a plurality of positions that are spaced apart in the longitudinal direction, in such a way as to allow an adjustment of the longitudinal distance of the suspension (7) from the passenger compartment cell (2).

Proposed is a modular driving apparatus which is driven in combination with at least one ride module or is driven independently by being combined with or separated from the ride module. The modular driving apparatus includes: a main body including a coupling space in which the ride module is mounted, and wheel modules which surrounds both sides of the ride module mounted in the coupling space and operates to run together with the mounted ride module or operates to run autonomously; and coupling guide blades which are respectively fastened to both sides of the main body and respectively include wheel module coupling holes for exposing the outer surfaces of the wheel modules.