A vehicle can include a longitudinal direction, a traverse direction and a vertical direction that are orthogonal to each other, a pair of front seats, a pair of rear seats, a fuel tank and a canister. The pair of rear seats can be mounted behind the first pair of seats in the longitudinal direction. The fuel tank can be mounted under a first of the rear seats. The canister can be mounted under a second of the rear seats.

A vehicle includes a differential gear that transmits rotation of a propeller shaft to an axle. A differential lock switches the differential gear between a locked state and an unlocked state. A clutch is provided in a power transmission path between a prime mover and wheels of the vehicle. A controller controls an engaging force of the clutch during a moving start of the vehicle in accordance with which of the locked state and the unlocked state is selected by the differential gear.

A motor vehicle includes a frame body defining a cabin area and an engine area. The engine area is primarily accessible from the cabin area during installation of the engine assembly. A seat frame is removably attached to the frame body in the cabin area, and a seat assembly is removably attached to the seat frame. A method of installing the engine assembly during the assembly of the motor vehicle includes the steps of lowering the engine assembly into the cabin area of the frame body, moving the engine assembly along a longitudinal axis into the engine area of the frame body, lowering the engine assembly onto an engine mount in the engine area of the frame body, attaching the seat frame to the frame body in the cabin area, and attaching the seat assembly to the seat frame.

A motor vehicle includes a rear region, a covering, a drive system arranged in the rear region, and an air-directing component arranged above the drive system. The air-directing component is configured to direct an air flow along a first side of the air-directing component. The drive system is arranged below the covering. At least one recess is arranged on a second side of the air-directing component, the at least one recess being configured to provide an air flow under the covering in the direction of the drive system.

A rear spoiler arrangement is provided for a motor vehicle having a rear mounted engine, an intercooler for the rear mounted engine and a holding member for a spoiler apparatus being provided in a rear region of the motor vehicle. In each case at least one opening is provided in the spoiler apparatus and the holding member as an air guide to the intercooler. The rear spoiler arrangement includes an air guiding arrangement with at least one air guiding slat provided at least in the opening of the spoiler apparatus.

An operating element for operating an entertainment system for a motor vehicle, having an interface to a media playback unit and at least one panelling element for a vehicle compartment panelling. The operating element is an element of the panelling element. The operating element is configured for an entertainment system and is able to be stowed easily in a motor vehicle.

A motor vehicle includes a rear region, a covering, a drive system arranged in the rear region, and an air-directing component arranged above the drive system. The air-directing component is configured to direct an air flow along a first side of the air-directing component. The drive system is arranged below the covering. At least one recess is arranged on a second side of the air-directing component, the at least one recess being configured to provide an air flow under the covering in the direction of the drive system.

A low floor road vehicle, in the form for example of a passenger bus, includes a front module that includes the front load-carrying axle at its front, a rear module including the rear load-carrying axle, a central module having a flat floor and lateral side walls that longitudinally extend beyond both longitudinal ends of the flat floor so as to define front and back module attaching portions, and a roof mounted to both lateral side walls so as to extend beyond the floor both towards the front and back, which brings rigidity to the overall structure. The vehicle being modular, the central module can be configured to a specific application, for example by varying the length thereof, while same configurations of the front and rear modules can be used in all applications. Also, the front axle being located at the front of the front module, the access to the passenger area defined by the flat floor is improved.

The present disclosure relates to an off-road vehicle having different features such as an engine assembly, a frame having a frame structure, and a rear mount assembly facilitating easy installation of the engine assembly, and a method of installing the engine assembly. Embodiments of the present disclosure also describe a removable frame member facilitating the installation of the engine assembly from a seating area into a rearward portion of the vehicle. The removable frame member is positioned at least partially forward of the installed engine assembly and in a lateral direction of the vehicle. The frame structure and the rear mount assembly provide more efficient assembly of the engine and transmission assembly into a tight space envelope.

A work machine, such as a skid steer loader or a compact track loader, includes a directional air intake assembly with a directional cap positioned on an intake pipe for selectively drawing ambient air into an internal combustion engine. A cooling vent ejects air heated by a rear-mounted engine upwardly into the atmosphere. Extending higher than and adjacent to the cooling vent, the directional cap has an elongated head that blocks ingress to the intake pipe other than through an opening at a face of the cap. Selectively positioning and angling the opening between a side of the loader and an edge of the cooling vent avoids taking in debris from near the wheels or tracks, avoids taking in heated air from the cooling vent, and takes advantage of negative pressure caused by the updraft from the cooling vent to remove particulates, resulting in cleaner air for the engine at close to ambient temperature.