A transport vehicle for transporting at least four passengers through an airport has a body. A front passenger seat is disposed in the body and is dimensioned to seat two adults thereon. A rear passenger seat disposed in the body and is dimensioned to seat two adults thereon. An operator area, for supporting an operator of the vehicle is disposed on the body. The rear passenger seat is disposed between the front passenger seat and the operator area. A distance from a front of the body to a rear of the operator area is less than a depth of an airport elevator, and a width of the body is less than a width of an airport elevator door.

A utility vehicle includes a plurality of ground engaging members and a frame supported by the plurality of ground engaging members. The frame assembly extends generally along a longitudinal axis of the utility vehicle. The utility vehicle further includes a front seating section coupled to the frame. The front seating section is configured to support an operator and a first passenger. Additionally, the utility vehicle includes a rear seating section coupled to the frame. The rear seating section is configured to support a second passenger and a third passenger. The rear seating section has an angled panel configured as a dead pedal for the second and third passengers, and a portion of the rear seating section extends forwardly into the front seating section.

An apparatus and system for: combining independent driving vehicles into a single assembly for condensed, efficient, variable capacity transportation on common routes; and for separating into independent vehicles for flexibility on diverse routes. Connection logistics are exchanged locally via line of sight optical channel. Retractable coupling and mated coupling on opposing ends of the vehicles provide multiple degrees of freedom (DOF) to accommodate misalignment during initial dynamic engagement, and lock as rigidly coupled assembly with zero DOF. Mating vehicles' doors open during transit, permitting inter-vehicle movement and consolidation of passengers en route to urban locales, and release of empty vehicles. On return, independent vehicles combine to dense passenger vehicles from urban locales for redistribution of passengers in individual vehicles that later separate for diverse destinations. Slaved vehicle systems allow one vehicle to control coupled vehicles' systems of retractable suspension, coordinated steering, power sharing. Utility vehicles couple to assembly for service.

Related primary to transportation: the device being the Urbamobile Transport System carried out in such a manner that it consists of individual elements performing the functions of a transport mean, with possibility of motion and to be motionless of each element both separately and in contact; the method being the method of exploitation of the transport system, at which forming the transport system individual elements, performing the functions of a transport mean, are moved and placed motionless both separately and in contact. The task is provided, for the first time, to obtain the technical means performing the function of the Urbamobile Transport System, by what the engineering result is achieved that consist in the implementation of the Urbamobile Transport System.

The present document describes a vehicle for transporting an individual in a pedestrian environment, the vehicle comprising: a main frame comprising a rear end and a front end, the main frame defining a longitudinal axis corresponding to a direction of straight forward movement of the vehicle; a motor mounted on the main frame and a drive unit operatively connected to the motor for propelling the main frame; a seat assembly mounted on the main frame, the seat assembly comprising at least two seats having an alignment direction corresponding to a direction the individual faces when seated in one of the at least two seats, the alignment direction making an angle between 45 degrees and 90 degrees relative to the longitudinal axis defined by the main frame; and a driving area at a rear end of the main frame for driving and operating the main frame.

The present document describes a vehicle for transporting an individual in a pedestrian environment, the vehicle comprising: a main frame comprising a rear end and a front end, the main frame defining a longitudinal axis corresponding to a direction of straight forward movement of the vehicle; a motor mounted on the main frame and a drive unit operatively connected to the motor for propelling the main frame; a seat assembly mounted on the main frame, the seat assembly comprising at least two seats having an alignment direction corresponding to a direction the individual faces when seated in one of the at least two seats, the alignment direction making an angle between 45 degrees and 90 degrees relative to the longitudinal axis defined by the main frame; and a driving area at a rear end of the main frame for driving and operating the main frame.

A vehicle may include a door pivotally mounted to a vehicle body at a lower end portion of the door, to open or close an opening formed at a portion of one surface of the vehicle, while being configured to form a bottom surface connected to a floor of the vehicle in a state of completely pivoting toward an outside of the vehicle in accordance with an opening operation of the door, forming a terrace space connected to an internal compartment of the vehicle, and a seat slidably mounted in the internal compartment of the vehicle, to provide a seating compartment for passengers, while being configured to be slidable outwards toward the opening of the vehicle, providing a seating compartment in the terrace space when the terrace space is used in accordance with the opening operation of the door.

A couplable automotive road vehicle includes two front wheels, a chassis having a front part and a rear part, an articulated connection device, and front and rear couplings. A wheel cylinder is defined as the cylindrical geometric shape surrounding the two front wheels when the wheels are not turned. The front part of the chassis includes a chassis beam disposed behind the front wheels, outside the wheel cylinder. The front coupling includes a yaw rigid coupling module mounted on the chassis beam between the two front wheels. The vehicle includes, for each front wheel, a suspension arm mounted on the chassis beam and extending around the wheel cylinder, above same, and a tie rod for controlling the steering device, located above the wheel cylinder.

A vehicle cabin structure includes a vehicle cabin and a handrail having an inverted U-shape and including an upper portion extending in a width direction of a vehicle along a ceiling surface of the vehicle cabin, and right and left vertical portions connected to both ends of the upper portion and extending downward along right and left side surfaces of the vehicle cabin from the respective ends of the upper portion, in which the right and left vertical portions of the handrail are fixed to the right and left side surfaces of the vehicle cabin, respectively.

A vehicle includes a chassis, a front axle coupled to the chassis, a rear axle coupled to the chassis, a powertrain coupled to the chassis, a cab coupled to the chassis, a rear module coupled to the chassis behind the cab. The powertrain is configured to drive at least one of the front axle or the rear axle. The rear module is selectively reconfigurable between a plurality of configurations.