A support for connecting the upper and lower surfaces inside a fuel tank includes a connecting column. Each of the upper and lower sides of the connecting column is provided with an end surface. The end surface is coated with plastic. The connecting column is provided with a notch, and the number of the connecting column is at least one. The connecting column is configured in an I-shape, an H-shape, an M-shape, a W-shape or other shapes. The shape of the notch is V-shaped, U-shaped, semicircular or irregular. The notch is provided on a left side or a right side of the connecting column or in a middle of the connecting column.

The present invention is directed to a carrier for an automobile with integrated active ducting. The carrier includes at least one aperture, and at least one louver rotatably mounted in the aperture. Also attached to the carrier is an actuator, and the actuator is connected to the louver. The actuator is operable for moving the louver between an open position and a closed position such that when the louver is in the open position, air flow passes through the aperture.

The present disclosure is directed to a fuel tank fill pipe assembly configured to conduct liquid fuel from a fuel-dispensing nozzle to a fuel tank. The fuel tank fill pipe assembly includes a filler head assembly shaped to receive the fuel-dispensing nozzle and a filler pipe that extends from the filler head assembly toward the fuel tank. In illustrated embodiments, a coupler is included for attaching the filler head assembly to the filler pipe while blocking fuel vapor from escaping the fuel tank fill pipe assembly so that hydrocarbons present in the fuel vapor are not released into the environment.

The invention relates to a monobloc part forming a front block for motor vehicle including a structural portion forming an energy absorption system, and a moulded semi-structural portion forming at least an aerodynamic system, the semi-structural portion being overmoulded on the structural portion.

A trim strip assembly for a vehicle and method of making the same is provided. The trim strip assembly includes a first trim portion. The first trim portion has a polymeric base and a first decorative member bonded to the polymeric base. The polymeric base is formed of polymeric material molded to the first decorative member. The polymeric base includes a first coupling member. A second trim portion has an extruded base and a second decorative member bonded to the extruded base. The extruded base and the second decorative member are coextruded. The extruded base includes a second coupling member. The first coupling member is bonded to the second coupling member to interconnect the first trim portion and the second trim portion.

An air guide for a vehicle front structure, the air guide is mountable on the vehicle front structure and is configured to redirect an incoming air flow towards a cooling device of the vehicle, the air guide including: a frame portion including a fixation portion having mounting elements for mechanical fixation to a vehicle structure when mounted for use, the frame portion is adapted to reinforce the air guide and define the general shape of the air guide, an air guide material, wherein the frame portion is over-molded with the air-guide material, wherein the stiffness of the frame portion is higher than the stiffness of the air guide material.

The present disclosure is directed to a fuel tank fill pipe assembly configured to conduct liquid fuel from a fuel-dispensing nozzle to a fuel tank. The fuel tank fill pipe assembly includes a filler head assembly shaped to receive the fuel-dispensing nozzle and a filler pipe that extends from the filler head assembly toward the fuel tank. In illustrated embodiments, a coupler is included for attaching the filler head assembly to the filler pipe while blocking fuel vapor from escaping the fuel tank fill pipe assembly so that hydrocarbons present in the fuel vapor are not released into the environment.

An air guide for a vehicle front structure, the air guide is mountable on the vehicle front structure and is configured to redirect an incoming air flow towards a cooling device of the vehicle, the air guide including: a frame portion including a fixation portion having mounting elements for mechanical fixation to a vehicle structure when mounted for use, the frame portion is adapted to reinforce the air guide and define the general shape of the air guide, an air guide material, wherein the frame portion is over-molded with the air-guide material, wherein the stiffness of the frame portion is higher than the stiffness of the air guide material.

The subject invention includes a fixed window assembly for a vehicle comprising a fixed glass, a trim portion having a polymeric base and a decorative member bonded to the polymeric base. An encapsulation is coupled to the fixed glass and the polymeric base to mount the trim portion in a spaced and adjacent position relative to the fixed glass. A method of manufacturing is also provided using first and second molding apparatuses. Polymeric material is injected into a first mold cavity of the first molding apparatus to form the polymeric base bonded to the decorative member. Polymeric material is injected into a second mold cavity of the second molding apparatus to form the encapsulation coupled to the fixed glass and simultaneously coupled to the polymeric base to mount the trim portion in an adjacent position to the fixed glass.

A lightweight vehicle pan assembly and for attachment to a vehicle frame via welding includes at least one metal flange and a molded pan body. The at least one metal flange has a weld portion adapted for welded attachment to the vehicle frame and an interface portion extending from the weld portion. The molded pan body has a base wall and at least one side wall extending upward from the base wall. The interface portion of the at least one metal flange is embedded in the at least one side wall of the molded pan body. The interface portion includes at least two rows of apertures defined therein for increasing a bond strength between the at least one metal flange and the molded pan body.