A front structure of a vehicle is provided and includes a first cowl panel that extends in a panel shape in a width direction of the vehicle, having a lower end coupled to an upper end of a dash panel, having an upper end bending toward a front of the vehicle and extending up to behind a lower end of a front windshield glass. A second cowl panel extends in an panel shape in the width direction of the vehicle, disposed under the first cowl panel, has an upper end that extends forward and is coupled to the lower end of the front windshield glass, has a lower end coupled to the first cowl panel, and forms a member that extends in the width direction of the vehicle behind the lower end of the front windshield glass together with the first cowl panel by being coupled to the upper end of the first cowl panel.

A front body of a vehicle includes left and right front side members extending forward from a left end part and a right end part of a lower end of a dash panel, an upper back beam connecting front ends of the front side members and extending in a width direction of the vehicle, left and right front center members extending forward from a central left part and a central right part of the lower end of the dash panel, a lower back beam connecting front ends of the front center members and extending in the width direction of the vehicle, and first and second support members, the first support member connecting the left front side member and the left front center member and the second support member connecting the right front side member and the right front center member.

A vehicle including power means configured to allow the entire upper surface of the floor structure to be available for the seating and cargo means. The seating and cargo means includes a first rearwardly facing seat assembly and a second confronting forwardly facing seat assembly. The seatback portions are pivotal downwardly into overlying relation to the cushion portions and into horizontal alignment with first and second cargo surfaces defined by the upper face of the floor structure between the front of the vehicle and the first seat assembly, and between the rear of the vehicle and the second seat assembly. The cushion portions of the seat assemblies are longitudinally spaced and the seatback portions have a height sufficient to fill the space to form a continuous cargo surface extending from the front of the vehicle to the rear of the vehicle. Gates in the front and rear ends of the vehicle allow front and rear access to the cargo surface.

Sports car including a cockpit equipped with a windscreen that delimits the cockpit, the windscreen being supported by a peripheral frame made of high-resistance material including an upper crossbeam at the top, a lower crossbeam at the bottom and a pair of side uprights connecting said upper and lower crossbeams, the windscreen including a front central upright arranged between said front side uprights to connect said upper and lower crossbeams.

The present invention relates to a passive safety cell (2) for passenger cars with alternative powertrains which is shared for the passengers (3) as well as for the energy source (4) with its main components, to protect both units in one cell.

A shared vehicle includes: a pair of right and left first pillars; a pair of right and left fourth pillars; a pair of right and left second pillars; a pair of right and left third pillars; an entrance door provided on one side wall of a vehicle body so as to be placed between the second pillar and the third pillar; and a front wheelchair space being provided such that at least a head of a wheelchair occupant is placed within a first region of the vehicle cabin in a plan view, the first region being surrounded by the first pillars and the second pillars, or a rear wheelchair space being provided such that at least the head of the wheelchair occupant is placed within a second region of the vehicle cabin in a plan view, the second region being surrounded by the third pillars and the fourth pillars.

The general layout for a three wheel drive, three wheel vehicle with two steerable driven wheels in the front of the vehicle, utilizing one or two motors to drive the front wheels, and a rear motor to drive the rear wheel. The vehicle maximizes performance of a three wheel vehicle by controlling torque on all three wheels. This is used to manage vehicle lateral dynamics while maximizing wheel traction for acceleration. Utilizing compact motors, in-hub motors, or direct connect motors allows a significant portion of the vehicle's weight to be moved forward, while integrating the location of the passenger seating, steering, and driven wheels results in a highly stable three wheel vehicle. The layout maintains the traditional bucket or bench style seats as found in today's automobiles, and yet allows for weighting and cockpit adaptability for different market demographics.

Methods, apparatus, systems, and articles of manufacture are disclosed for high-traffic density personalized transportation. An example system includes a transit carrier having a first movement system, first stacking couplers, first and second magnetic couplers, and a first location, a transit pod having a second movement system, second stacking couplers, and a second location, the second stacking couplers configured to couple to the first stacking couplers, and a controller to in response to obtaining a request to direct the transit carrier to move from the first location to the second location, invoke the transit pod to couple to the transit carrier by directing the transit pod to move on top of the transit carrier using the second movement system, and when the transit carrier is coupled to the transit pod, invoke the transit carrier to move the transit pod to a third location using the first movement system.

A passenger transport system has a pod adapted to carry passengers or articles and a first attachment interface, a plurality of transport vehicles, each adapted to couple to the passenger pod, a first entry station adapted to load a passenger or articles into the pod, a plurality of exchange points, and a final destination station adapted to unload the passenger or articles from the pod carried by the transport vehicle. The pod with a passenger or articles is loaded at the first entry station travels on transport vehicles between individual ones of the exchange stations, until arriving at the final destination station where the passenger or the articles are unloaded, the passenger or articles remaining in the pod through all exchanges between transport vehicles.

The present invention relates to a passive safety cell (2) for passenger cars with alternative powertrains which is shared for the passengers (3) as well as for the energy source (4) with its main components, to protect both units in one cell.