An air cleaner includes: an air cleaner box defining a clean chamber that is placed rearward of a dirty chamber, the clean chamber receiving air which has been introduced from front into the dirty chamber and then filtered through an air cleaner element; and funnels that are to be connected to an intake port of an internal combustion engine, the funnels protruding upward into a space within the air cleaner box from a bottom wall of the air cleaner box. The air cleaner further includes a breather chamber into which blow-by gas is introduced from the internal combustion engine, the breather chamber being placed rearward of the funnels and between the funnels and a rear wall of the air cleaner box. Accordingly, the air cleaner can further promote the air-liquid separation of blow-by gas without incurring an increase in weight of the internal combustion engine.

An air intake apparatus of a multi-cylinder engine includes an intake air inlet passage, an intake air distribution portion, a plurality of independent intake air passages, and a secondary gas inlet passage. The intake air inlet passage has one end portion attached to a throttle valve, and the other end connected to an intake air distribution portion. The intake air distribution portion has a space therein. The secondary gas inlet passage is connected at a part spaced apart, in the intake air inlet passage, from the throttle valve. The intake air distribution portion has a reflux passage which is a passage that connects the space and a part between the one end portion and the other end in the intake air inlet passage. The reflux passage is a passage which refluxes fresh air and secondary gas introduced from the intake air inlet passage to the intake air inlet passage.

A two-wheeled vehicle includes a frame assembly having a front end and a rear end extending along a longitudinally-extending centerline, a front ground-engaging member operably coupled to the front end of the frame assembly at a front rotational axis, and a rear ground-engaging member operably coupled to the rear end of the frame assembly at a rear rotational axis. The vehicle further includes an engine supported by the frame assembly and operably coupled to the front and rear ground-engaging members, and the engine includes a throttle body assembly. Additionally, the vehicle includes an air intake assembly fluidly coupled to the engine and including an airbox and a mounting plate having a first channel and a second channel. The first and second channels are configured to align with the throttle body assembly. The mounting plate is configured to couple the airbox to the throttle body assembly.

Intake air systems featuring novel intercooler and air distribution system components. The intercooler component has a rectangular heat exchanger core for cooling air with a liquid, and the heat exchanger core has a first face for entry of uncooled air and a second opposing face for exit of cooled air. A first rectangular intercooler mounting flange structure is secured to the periphery of the first face and a second intercooler rectangular mounting flange structure is secured to the periphery of the second face. The first rectangular intercooler mounting flange structure and the second rectangular intercooler mounting flange structure are of approximately the same size and geometry, and the first rectangular intercooler mounting flange structure and the second rectangular intercooler mounting flange structure have substantially identical plural spaced-apart symmetrically distributed bolt apertures. The first rectangular intercooler mounting flange structure comprises a first L-shaped core mounting flange and a second L-shaped core mounting flange, the second rectangular intercooler mounting flange structure comprises a third L-shaped core mounting flange and a fourth L-shaped core mounting flange, and the first L-shaped core mounting flange, the second L-shaped mounting flange, the third L-shaped mounting flange and the fourth L-shaped core mounting flange all have approximately the same size and geometry. The air distribution system component has an air distribution tray adapted for mounting to the engine between the first and second row of cylinders, where the air distribution tray has a planar perimeter defining a horizontal plane and plural outlet ports, the plural outlet ports are disposed in an alternating staggered relationship about a longitudinal plane perpendicular to the horizontal plane, each of the plural outlet ports is adapted for connection to a respective air intake port of the cylinders of the internal combustion engine, and the air distribution tray is configured so that the planar perimeter of the air distribution tray is above both the engine and the outlet ports when the air distribution system is mounted to the engine and the plural outlet ports are connected to the air intake ports of the cylinders. The air distribution tray includes plural distribution channels configured to be below the planar perimeter when the air distribution tray is mounted to the engine, where each distribution channel generally is concavely curved about a longitudinal axis located in the longitudinal plane and is bounded by a first end and a second end, with the first end of each of the plural distribution channels coupled to a respective one of the plural

Internal combustion engine comprisinga first pair of cylinders which accommodate, according to a rectilinear reciprocating motion, relative first pistons operatively associated to a motor shaft rotating around a motor axis disposed in a transverse direction, perpendicular to a longitudinal running direction of an associable vehicle, a suction system comprising a filter box which delimits a suction volume which houses at least a first front suction duct and at least a first rear suction duct, respectively disposed in an advanced and retracted position in relation to an air/suction mixture inlet direction, each suction duct channelling the air/suction mixture before entering in the respective cylinders, wherein said first front and rear suction ducts are fixed and have respective mutually different lengths.

An intake manifold includes a surge tank and left and right intake pipes containing one end sides each connected to the surge tank, and respectively extending to both side directions of the surge tank. A gas distribution passage portion to distribute exhaust gas to each of the left and right intake pipes is provided along a lower surface side of the surge tank and lower surface sides of the left and right intake pipes. An exhaust gas inlet and a gas distribution passage connected to the exhaust gas inlet are formed on the gas distribution passage portion. A communication hole to communicate an inside of each of the intake pipes and the gas distribution passage is formed on each of the left and right intake pipes.

An air intake manifold for an internal combustion engine having a top shell and a base weldment. The base weldment is formed by permanent joining of a bottom shell having a plurality of air outlets with a runner assembly having a plurality of runner components each having an air inlet and an air outlet, wherein the plurality of runner components are attached to one another via a support member to form the runner assembly.

An air supply device for an internal combustion engine may include at least one air chamber and at least two intake pipes, which are connected to the at least one air chamber. The intake pipes may each be designed to supply air to respective cylinders of the internal combustion engine, and they each may have intake pipe end portion assigned to a corresponding inlet opening. Via the inlet openings, air can move from an air chamber interior of the at least one air chamber into respective intake pipe interiors of the at least two intake pipes and also via the intake pipe interiors to the cylinders. The intake pipe end portions may end in the air chamber interior and overlap in at least one direction, which is oriented perpendicularly to at least one center axis of at least one of the intake pipe end portions at a common overlapping region.

In an intake device, an upper fuel injection device that injects a fuel and a suction port that suctions the air-fuel mixture supplied to a cylinder head are disposed in the air cleaner. The intake device includes the air cleaner including an air cleaner case and a sidewall filter that purifies an air suctioned into the air cleaner case. The sidewall filter partitions a space in the air cleaner case in a vehicle width direction, and has at least partially overlapping with the upper fuel injection device in the vehicle width direction.

An air cleaner of a vehicle for filtering particulate matter from air supplied through an intake includes a case with an outlet. The case surrounds the air cleaner, which further includes two connecting tubes each having a first end attached to the throttle body of the vehicle and a second end disposed in the outlet in the case of the air cleaner. A funnel is inserted into the second end of each of the connecting tubes. Clean air from the air cleaner is proved to the engine through the connecting tubes.