A vehicle skeleton structure includes: a first front pillar portion provided at a first side portion of a vehicle body; a second front pillar portion provided at a second side portion of the vehicle body; a front upper cross portion coupled to upper portions of the first and second front pillar portions; a front lower cross portion coupled to lower portions of the first and second front pillar portions; a first rear pillar portion provided at the first side portion along a rear peripheral edge portion of the door opening portion; a second rear pillar portion provided at the second side portion; a rear upper cross portion coupled to upper portions of the first and second rear pillar portions; and a rear lower cross portion coupled to lower portions of the first and second rear pillar portions.

A passenger transport vehicle includes a vehicle body having at least one left passenger compartment arranged in a travel direction on a left side of the vehicle, and at least one right passenger compartment arranged in a travel direction on a right side of the vehicle. Each passenger compartment has at least one passenger space and an access door to permit ingress into and egress from the at least one passenger space. A partition wall is arranged between the at least one left passenger compartment and the at least one right passenger compartment to restrict entry of passengers between the left passenger compartment and the right passenger compartment.

A vehicle pillar structure includes a vehicle pillar and a transparent window member. The vehicle pillar includes a first pillar extending along an outer end of a windshield glass in a width direction of a vehicle, and a second pillar disposed away from the first pillar by a predetermined distance in a substantial front-and-rear direction of the vehicle. An outside of the vehicle is viewable through the transparent window member. The transparent window member is interposed between the first pillar and the second pillar, and covers an opening defined by the first pillar and the second pillar. The vehicle pillar has a curved shape defined by a straight portion extending in a substantial vertical direction of the vehicle in side view, and a curved portion curved from an upper end of the straight portion and extending in the front-and-rear direction of the vehicle.

A fixing structure 40 has an inwardly-facing seat 22, a front side seat 42, and fixing members 44. The inwardly-facing seat 22 is fixed to a floor portion 14 such that passengers PA face in a vehicle transverse direction. The front side seat 42 has a seat cushion 46 on which the passenger PA sits, and a supporting member 52, and is disposed at the floor portion 14 at a vehicle longitudinal direction front side of the inwardly-facing seat 22, and rear wheels 36 can contact the seat cushion 46 in a vehicle longitudinal direction. The supporting member 52 supports the seat cushion 46 such that the seat cushion 46 can rotate toward the inwardly-facing seat 22. The fixing members 44 fix a wheelchair 30 to the floor portion 14 in a state in which the rear wheels 36 are made to contact the front side seat 42.

An indoor maintenance cover of a bus includes: a frame mounted on a maintenance hole; a first door and a second door in which respective both ends are connected to the frame by a hinge pin to open/close the maintenance hole; an interlocking device configured to join a hinge pin connected to one end of the first door and a hinge pin connected to one end of the second door, the interlocking device facing the hinge pin so that the first door and the second door rotate while interlocking with each other; and a fastener fastening the first door and the second door while the first door and the second door are closed. The maintenance cover can be installed to prevent accidents while increasing operability for easily opening or closing the maintenance hole in the bus.

An indoor maintenance cover of a bus includes: a frame mounted on a maintenance hole; a first door and a second door in which respective both ends are connected to the frame by a hinge pin to open/close the maintenance hole; an interlocking device configured to join a hinge pin connected to one end of the first door and a hinge pin connected to one end of the second door, the interlocking device facing the hinge pin so that the first door and the second door rotate while interlocking with each other; and a fastener fastening the first door and the second door while the first door and the second door are closed. The maintenance cover can be installed to prevent accidents while increasing operability for easily opening or closing the maintenance hole in the bus.

A reconfigurable vehicle may include a vehicle frame body and a removable floor. The removable floor may be configurable based on a use case for the reconfigurable vehicle. The removable floor may be configured for passenger transport, goods transport, or both. The removable floor may include a rotating assembly. The rotating assembly may include a wheel and a catch element. The removable floor may include one or more connection interfaces.

Improved passenger access and suspension systems for passenger buses, and controllers configured for use therewith; and passenger buses incorporating such systems and controllers. Integration of access ramp, door, suspension, charge interface, and other systems provides improvements in fully- or semi-automatic deployment of features such as passenger doors and ramps, and charge interface components, as well as navigation to passenger access points.

Improved passenger access and suspension systems for passenger buses, and controllers configured for use therewith; and passenger buses incorporating such systems and controllers. Integration of access ramp, door, suspension, charge interface, and other systems provides improvements in fully- or semi-automatic deployment of features such as passenger doors and ramps, and charge interface components, as well as navigation to passenger access points.

Embodiments disclosed herein relate to a method of constructing a vehicle. In one embodiment, a length and a width of the vehicle are determined. Material is cut into a first sheet equal to the length of the vehicle, and a second sheet equal to the length of the vehicle. A joint couples the first sheet and the second sheet to form the width of the vehicle.