Abstract: A fuel delivery system comprises a fuel rail having a flow channel therein. The fuel delivery system further comprises a fuel injector cup that includes a base at a first end thereof, an opening at a second end thereof opposite the first end, and an inner cavity disposed between the base and the opening. The first end of the fuel injector cup is configured to be disposed within the flow channel of the fuel rail. The fuel delivery system further comprises a heating element. The fuel rail of the fuel delivery system further includes a port therein that is configured for receiving the heating element. Additionally, the fuel injector cup of the fuel delivery system further includes an aperture therein also configured for receiving the heating element.

Abstract: A fuel delivery system in accordance with the present invention comprises a fuel rail having an outlet opening and an outlet cup that is insertable into the outlet opening. The cup includes a flange. The flange includes at least one tab extending therefrom. The cup further defines a vertical axis extending therethrough. The system further includes a fuel injector with an inlet insertable within the cup. The system still further includes a retention clip. The clip includes an inner peripheral surface, at least a portion of which is configured for engagement with the injector when the clip and injector are assembled together. The clip further includes at least one arm, the arm further including a finger configured for spring engagement with the tab of the cup. The clip is operative to limit the movement of the fuel injector when it is assembled with the clip and inserted in the cup.