A vehicle seat with a seat bottom and backrest is configured for movement between a forward-facing position and an inwardly-rotated position in a reconfigurable vehicle passenger cabin. The movement includes rotation about a vertical axis located along an inboard side of the seat and a rear side of the seat bottom. The vertical axis can be located within an inboard quarter of the seat, rearward of an occupant seating surface of the seat bottom, forward or rearward of a rear side of a bottom end of the backrest, and various combinations of these locations. In addition to providing a seat occupant with additional freedom of movement within the passenger cabin, the inwardly-rotated position of the seat can also provide a safer condition for the seat occupant with respect to structural portions of the vehicle body.

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).

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 wall panel for a recreational vehicle includes a main body defining at least one pre-formed panel opening, and an inwardly extending peripheral flange located along a perimeter of the at least one pre-formed panel opening. The wall panel is configured to be mounted onto a structural wall of the recreational vehicle such that the peripheral flange covers an inner surface of a corresponding opening defined in the structural wall.

A wall panel for a recreational vehicle includes a main body defining at least one pre-formed panel opening, and an inwardly extending peripheral flange located along a perimeter of the at least one pre-formed panel opening. The wall panel is configured to be mounted onto a structural wall of the recreational vehicle such that the peripheral flange covers an inner surface of a corresponding opening defined in the structural wall.

A load bearing panel member having a first portion, a second portion, and an appearance surface portion is formed by injection molding such that the first portion includes a plurality of ribs forming a grid pattern on the first portion and another plurality of ribs extending toward the periphery of the first portion which may be non-orthogonal to each other and to the ribs forming the grid pattern. An internal channel may be formed within each of the non-orthogonal ribs by injecting a gas into the rib during the molding process forming the panel. An appearance surface portion attached to the first portion and second portion of the panel member forms an integral hinge between the first and second portions of the panel member. The panel member may be configured as a floor panel of a vehicle.

A load bearing panel member having a first portion, a second portion, and an appearance surface portion is formed by injection molding such that the first portion includes a plurality of ribs forming a grid pattern on the first portion and another plurality of ribs extending toward the periphery of the first portion which may be non-orthogonal to each other and to the ribs forming the grid pattern. An internal channel may be formed within each of the non-orthogonal ribs by injecting a gas into the rib during the molding process forming the panel. An appearance surface portion attached to the first portion and second portion of the panel member forms an integral hinge between the first and second portions of the panel member. The panel member may be configured as a floor panel of a vehicle.

A method for transporting a person or a parcel from a first location to a second location involves mounting a pod having a rechargeable battery and a compartment to a first vehicle, moving the first vehicle with the pod mounted to a loading position at or near the first location, loading a person or a parcel into the pod, moving the first transporter vehicle from the loading position to a first exchange point, exchanging the passenger pod from the first transporter vehicle to a second transporter vehicle at the first exchange point by de-mounting the pod from the first transporter vehicle and mounting the pod to the second transporter vehicle by a compatible physical interface between the pod and the second transporter vehicle, and transporting the second transporter vehicle with the pod to the second location.

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 compact electric transport device that is convertible between a stowed configuration and a riding configuration is described. In one embodiment, a foldable steering assembly for an electric transport device includes a steering column disposed within an opening along a top surface of the electric transport device. The steering column has a horizontal orientation that extends along a length of the electric transport device within the opening in a folded position. The foldable steering assembly also includes a steering shaft connected to an axle of a wheel of the electric transport device. The foldable steering assembly further includes a hinge connecting the steering column to the steering shaft. The steering column is configured to transition to a vertical orientation that is perpendicular to the opening along the top surface of the electric transport device in an extended position.