A vehicle having a front axle with a pair of front wheels having a track width adjustable between a wide track and a narrow track; a rear axle with at least one rear wheel; steering means configured to control the turn of the rear wheel when the front wheels are set to the narrow track; track width control means configured to change the track width of the front wheels and to change the wheel base between the front axle and the rear axle such that for the wide track of the front wheels the wheel base is longer than for the narrow track of the front wheels; a locking mechanism configured to lock the track width; wherein each of the front wheels is connected to a dedicated front wheel motor for driving that front wheel and to a dedicated front wheel brake for breaking that front wheel.

Disclosed is a vehicle with a body having a cockpit therein, wherein: the cockpit contains one or more seats disposed in a single file arrangement; the body has first and second doors for accessing the cockpit, the first and second doors being arranged on opposite sides of the cockpit; when the first door is closed, an upper portion of the first door is arranged to form a first part of a roof of the cockpit; and the first part of the roof of the cockpit is larger than any part of the roof of the cockpit formed by the second door when the second door is closed. By providing two doors which are asymmetrical, it is possible to reduce a size of the cockpit without compromising accessibility or safety of the vehicle. Reducing a size of the cockpit may contribute to reducing an overall mass and size of the vehicle.

The vehicle (1) is provided with a pair of front compartments and a pair of rear compartments that are inclined to a first lateral side toward rear parts thereof. A front part (23B) of the rear compartment (23) on the first lateral side is positioned between rear parts (21B, 22B) of the front compartments (21, 22) while a rear part (22B) of the front compartment (22) on a second lateral side opposite from the first lateral side is positioned between front parts (23B, 24B) of the rear compartments (23, 24).

A method is provided for assembling a stack-up including a first workpiece with a clearance hole and a second workpiece. The method comprises adhering an adhesive to a first face of the first workpiece so as to completely cover and close the clearance hole and securing the second workpiece to a second face of the first workpiece with an adhesive. A stack-up and the method of capturing adhesive squeeze-out during a stack-up assembly process are also disclosed.

A three-wheeled vehicle includes a vehicle frame defining an occupant compartment. The vehicle frame has a front. The vehicle frame includes a first side extending vehicle-rearward from the front. The vehicle frame includes a second side extending vehicle-rearward from the front. The vehicle frame includes a bottom segment and a top segment. The top segment and the bottom segment extend along the front and the first side and the second side of the vehicle frame. The bottom segment and the top segment are tubular. The three-wheeled vehicle includes a first wheel at a midline of the front of the vehicle frame, a second wheel on the first side of the vehicle frame, and a third wheel on the second side of the vehicle frame. The three-wheeled vehicle includes an airbag supported by the bottom segment. The airbag is inflatable exterior to the vehicle frame upwardly toward the top segment from an uninflated position to an inflated position. The airbag in the uninflated position is elongated along the front and the first side and the second side of the vehicle frame.

A motor vehicle is disclosed having A-pillars and B-pillars on a first side of the motor vehicle and a B-pillar but no A pillar on a second side of the motor vehicle. A wrap around window extends from the A-pillar on the first side of the motor vehicle substantially without interruption to the B-pillar on the second side of the motor vehicle. The wrap around window forms part of a top hinged door that provides access to a passenger compartment when in an open state.

A motor vehicle is disclosed having A-pillars and B-pillars on a first side of the motor vehicle and a B-pillar but no A pillar on a second side of the motor vehicle. A wrap around window extends from the A-pillar on the first side of the motor vehicle substantially without interruption to the B-pillar on the second side of the motor vehicle. The wrap around window forms part of a top hinged door that provides access to a passenger compartment when in an open state.

A self-balancing tilting vehicle comprising a rear frame section having two drive wheels and a front frame section having at least one front wheel, connected to the rear frame section such as to be tiltable about a tilt axis that extends in a length direction, the front frame section carrying a driver seat, the rear frame section comprising an electric propulsion drive for rotating the drive wheels, an electric tilting drive for tilting the front frame section about the tilting axis and a power generating unit, the front wheel being rotatable about a steering axis that extends transversely to the tilt axis, characterised in that the drive unit of the tilting vehicle is cut off well before the tilting drive.

A vehicle body frame includes a lower frame fixed to a floor of a vehicle to define a lower region of an internal space in the vehicle, a roof frame connected to an upper portion of the lower frame to define an upper region of the internal space, configured to slid in a vertical direction of the vehicle with respect to the lower frame, to expand the internal space upwards when the roof frame slides upwards, a lower door frame forming a lower portion of a vehicle door, and an upper door frame connected to the lower door frame to form an upper portion of the vehicle door, and configured to slid together with the roof frame to expand the vehicle door upwards when the roof frame slides upwards.

A vehicle body frame includes a lower frame fixed to a floor of a vehicle to define a lower region of an internal space in the vehicle, a roof frame connected to an upper portion of the lower frame to define an upper region of the internal space, configured to slid in a vertical direction of the vehicle with respect to the lower frame, to expand the internal space upwards when the roof frame slides upwards, a lower door frame forming a lower portion of a vehicle door, and an upper door frame connected to the lower door frame to form an upper portion of the vehicle door, and configured to slid together with the roof frame to expand the vehicle door upwards when the roof frame slides upwards.