A utility vehicle (2) comprises a plurality of ground engaging members (6, 8) and a frame (4) supported by the plurality of ground engaging members. The utility vehicle includes a front seating area (24) and a rear seating area (26). A rear cargo bed (20) is reconfigurable from a configuration where it is rearward of the rear seating area to a second configuration where it includes the rear seating area space. The vehicle includes a transmission (254) having a final drive portion (258) and a plurality of transmission shafts (672, 690, 702) housed in a common housing (650), the final drive portion being forward of an end of the plurality of transmission shafts. The vehicle also includes a front suspension (72) and a rear suspension (74).

The method is for producing a bus using a cutaway van chassis, the bus being of the type having a sliding passenger door and the chassis being of the type having a passenger door frame including a horizontal rail, an A-pillar extending to the rail and a B pillar extending to the rail, the A-pillar being adapted to receive a swinging door. In the method, the B-pillar and the rail are removed to produce a modified chassis and the remainder of the bus is constructed about the modified chassis.

A work vehicle provided with a boarding section and an engine is disclosed. The boarding section is provided with a seat that allows an occupant to be seated thereon. The engine is located below the seat. A separator is provided to separate a foot space for an occupant and the engine from each other. The foot space is formed forward of the engine. The separator is provided with a radiator part formed therein. The radiator part is configured to radiate heat.

A method is performed by a control device (100) of a first module (30, 40) of a vehicle (1), for electrically disconnecting the first module (30, 40) from a second module (30, 40) that is physically connected to the first module (30, 40), wherein the assembled vehicle (1) is configured to communicate with a control center (200). The method includes: identifying (s101) that the assembled vehicle (1) is ready to be disassembled; inactivating (s102) communication means (50) in the first module (30, 40) for establishing the electrical disconnection; and transmitting (s103) a verification of the electrical disconnection to the control center (200).

Various enhancements to the capabilities of vehicles in general, and particularly light-duty utility Vehicles, which can advantageously enhance the cargo-carrying capabilities of such vehicles. The present invention provides a cargo bed insert, as well as an insert system, for removable attachment to a vehicle's existing cargo box. Improvement to a light-duty utility vehicle, where the improvement is in the form of a cargo box for the vehicle which includes one or more features of the described cargo bed insert and/or system is disclosed. The invention contemplates methods for enhancing the cargo-carrying capability of a light-duty utility vehicle. In particular, methods for enhancing the cargo-carrying capacity of such a vehicle beyond a manufacturer's specified cargo weight capacity are provided. Lastly, the invention includes a mounting assembly for a removable attachment to a vehicle's frame. The mounting assembly may be employed as a stand-alone item, or in conjunction with the cargo bed insert, to create a system for enhancing a vehicle's cargo-carrying capability.

The method is for producing a bus using a cutaway van chassis, the bus being of the type having a sliding passenger door and the chassis being of the type having a passenger door frame including a horizontal rail, an A-pillar extending to the rail and a B pillar extending to the rail, the A-pillar being adapted to receive a swinging door. In the method, the B-pillar and the rail are removed to produce a modified chassis and the remainder of the bus is constructed about the modified chassis.

A vehicle assembly includes a mid-gate assembly disposed between a passenger compartment and a cargo bed of a vehicle. The mid-gate assembly has a pass-through opening and a hatch that is pivotably coupled to the mid-gate assembly at a position vertically above a floor of the cargo bed. The hatch is configured to move back-and-forth between a closed position that closes the pass-through opening and an open position that permits access between the passenger compartment and the cargo bed through the pass-through opening.

A work vehicle provided with a boarding section and an engine is disclosed. The boarding section is provided with a seat that allows an occupant to be seated thereon. The engine is located below the seat. A separator is provided to separate a foot space for an occupant and the engine from each other. The foot space is formed forward of the engine. The separator is provided with a radiator part formed therein. The radiator part is configured to radiate heat.

A utility vehicle comprises a plurality of ground engaging members and a frame supported by the plurality of ground engaging members. The utility vehicle includes a front seating area and a rear seating area. A rear cargo bed is reconfigurable from a configuration where it is rearward of the rear seating area to a second configuration where it includes the rear seating area space. The vehicle includes a transmission having a final drive portion and a plurality of transmission shafts housed in a common housing, the final drive portion being forward of an end of the plurality of transmission shafts. The vehicle also includes a front suspension and a rear suspension.

An autonomous vehicle (AV) includes a conveyor system arranged within its main cabin. The conveyor system includes attachment points for attaching transport bags to the conveyor system, and a motor to move the transport bags to different positions along the conveyor system. The AV includes a door that can open and close to provide access to the transport bags. The AV further includes a conveyor system controller that identifies a transport bag associated with a user and issues an instruction to the motor to move the transport bags along the conveyor system.