Stepped check valves

What is claimed is: 1 . A check valve, comprising: an upper housing defining an inlet of the check valve; a lower housing defining an outlet of the check valve, wherein a cavity is interposed between and defined by the upper housing and lower housing for fluidly connecting the inlet and the outlet; and a valve member seated in the cavity to selectively permit fluid flow in a first direction and restrict fluid backflow in a second direction opposite to the first direction. 2 . The check valve of claim 1 , wherein the check valve has a conical stepped geometry. 3 . The check valve of claim 2 , wherein the conical stepped geometry prevents the valve member from touching an inner wall of the upper housing. 4 . The check valve of claim 1 , wherein a sealing surface is defined at a distal end of the upper housing. 5 . The check valve of claim 4 , wherein in a closed state, the valve member is configured to contact the sealing surface to limit fluid flow past the sealing surface. 6 . The check valve of claim 1 , wherein the lower housing comprises a biasing post disposed in the cavity at a central portion thereof. 7 . The check valve of claim 6 , wherein a central axis of the biasing post is aligned with a central longitudinal axis of the check valve and the valve member is configured to be seated on the biasing post. 8 . The check valve of claim 4 , wherein when an upstream pressure is applied to the valve member, the valve member is configured to deflect away from the sealing surface to fluidly communicate the inlet and the cavity. 9 . The check valve of claim 4 , wherein when a downstream pressure is applied to the valve member, the valve member is configured to deflect towards the sealing surface to block fluid communication between the inlet and the cavity. 10 . The check valve of claim 1 , wherein when a downstream pressure is applied to the valve member, the valve member is configured restrict backflow of the fluid from the outlet to the inlet. 11 . The check valve of claim 6 , wherein the biasing post may include a central aperture and a two semi cylindrical slots through which fluid may flow from the inlet and into the cavity. 12 . The check valve of claim 1 , wherein the valve member has a raised surface and a flat surface. 13 . The check valve of claim 1 , wherein the check valve is generally tubular. 14 . The check valve of claim 1 , wherein the valve member never touches an inner wall of the upper housing. 15 . The check valve of claim 6 , wherein a central axis of the biasing post is coaxially aligned with a central longitudinal axis of the check valve. 16 . The check valve of claim 6 , wherein the biasing post is coupled to, integrally formed with, or otherwise protrudes from an upstream internal surface of the lower housing. 17 . A method for assembling a check valve, comprising: providing an upper housing defining an inlet of the check valve; providing a lower housing defining an outlet of the check valve, wherein a cavity interposed between and defined by the upper and lower housings for fluidly connecting the inlet and the outlet; and providing a valve member seated in the cavity to selectively permit fluid flow in a first direction, and restrict fluid backflow in a second direction opposite to the first direction, comprising: placing the valve member in the upper housing and vibrating the valve member and upper housing until the valve member is fully seated in the upper housing. 18 . The method of claim 17 , wherein: a sealing surface is defined at a distal end of the upper housing; and in a closed state, the valve member is configured to contact the sealing surface to limit fluid flow past the sealing surface. 19 . The method of claim 17 , wherein: the lower housing comprises a biasing post disposed in the cavity at a central portion thereof, a central axis of the biasing post being aligned with a central longitudinal axis of the check valve; and the valve member is configured to be seated on the biasing post. 20 . The method of claim 18 , wherein: when an upstream pressure is applied to the valve member, the valve member is configured to deflect away from the sealing surface to fluidly communicate the inlet and the cavity; and when a downstream pressure is applied to the valve member, the valve member is configured to deflect towards the sealing surface to block the fluid communication between the inlet and the cavity and to restrict backflow of the fluid from the outlet to the inlet.