Abstract: An automotive air deflector is substantially V-shaped with a pair of opposed wing panels configured such that impinging air is directed around the deflector. The deflector is configured for placement at various locations on a vehicle, including on the front end of the vehicle, on the rear end of the vehicle, and in front of the tires of the vehicle. The air deflector is constructed of a lightweight material that is sufficiently rigid for the service environment but is flexible enough to be configured in varying shapes so as to accommodate being placed on various types of vehicles and in the various locations on those vehicles. By reducing turbulence and providing for the smooth flow of air around the vehicle, the air deflector reduces the effect of aerodynamic drag, and thus improves the fuel efficiency of the vehicle, thereby leading to reduced vehicle operating costs.

Abstract: The invention relates to a connector which has an inner displacement member. The flow is stopped by the connector, i.e. the connector is impervious, in a first position. In a second position of the displacement member, with a stop defining the position, flow apertures are released which release the flow into the flow carrying line.