Abstract: A fuel supply system for an internal combustion engine having inlet porting and a fuel supply passage with valve means therein, the cross-sectional area lying within the outside passage walls being greater in the region of the valve means than in a region upstream of the valve means. An element is disposed in the passage tending to equalize the velocity of the fuel flow through the supply passage in different regions thereof, and means are also provided in connection of a fuel reservoir or vessel to the fuel supply passage or channel in the region of and through said element.
Abstract: Several embodiments of induction systems for internal combustion engines that improve charging efficiency over a widespread range, particularly at the lower speeds of the engine. Each embodiment includes a plurality of plenum chambers each of which communicates with the intake passage of the engine between the throttle valve and the served chamber. In one embodiment, the plenum chambers communicate with the induction system through separate branch passages. In other embodiments, the plenum chambers communicate with the induction system through each other.
Abstract: An internal system for use in an internal combustion engine which includes a carburetor, a throttle valve and a check valve. A supplemental chamber is connected to an intake passage adapted to introduce therethrough air-fuel mixture from the throttle valve to a combustion chamber. The supplemental chamber is in communication with the intake passage at a position between the throttle valve and the check valve. The supplemental chamber is provided with an opening directed tangentially with respect to an inner cylindrical periphery of the intake passage. In another embodiment of the invention, a control passage is formed in communication between the supplemental chamber and the intake passage. A downstream end of the control passage is opened at a position adjacent to an initially opening position of the check valve.