Bidirectional valve with improved threshold pressure accuracy

What is claimed is: 1 . A valve for bidirectional flow comprising: a housing providing a first and second port communicating with an internal housing volume; an elastomeric disk positioned between the first and second port in the internal housing volume, the elastomeric disk retained against the housing within an annular region of the elastomeric disk between a central region and an outer peripheral region so that the central region and outer peripheral region are free to move with respect to the housing; the housing providing a first valve seat engaging the outer peripheral region of the elastomeric disk when the elastomeric disk is in a relaxed state and having a second valve seat engaging the central region when the elastomeric disk is in a relaxed state; the housing further providing first flow channels leading from the first port to the elastomeric disk to press the elastomeric disk against the second valve seat and to press the elastomeric disk away from the first valve seat when pressure at the first port is greater than pressure at the second port; and the housing further providing second flow channels leading from the second port to the elastomeric disk to press the elastomeric disk against the first valve seat and to lift the elastomeric disk away from the second valve seat when pressure at the second port is greater than pressure at the first port. 2 . The valve of claim 1 wherein the elastomeric disk interacts with the first and second valve seats to provide for a first threshold opening pressure at which fluid flows between the first port and the second port and a second threshold opening pressure different from the first threshold opening pressure when the fluid flows between the second port and the first port. 3 . The valve of claim 2 wherein the first threshold opening pressure permits gravity flow of intravenous liquids from a standard IV bag. 4 . The valve of claim 3 wherein the second opening pressure permits sampling of patient blood from a patient using a syringe or vacuum pump device. 5 . The valve of claim 3 wherein the first threshold opening pressure is less than twenty millibars and the second threshold opening pressure is greater than two bars. 6 . The valve of claim 2 wherein a difference between the first and second threshold opening pressures is a factor greater than one hundred. 7 . The valve of claim 1 wherein the elastomeric disk is comprised of at a first and second elastic material of different elasticity. 8 . The valve of claim 1 wherein the elastomeric disk is comprised of a first and second elastic material of different Shore hardnesses. 9 . The valve of claim 8 wherein the first elastic material of greater elasticity forms the outer peripheral region of the elastomeric disk contacting the first valve seat and the second elastic material of lesser elasticity forms the central region contacting the second valve seat. 10 . The valve of claim 1 wherein the first flow channel substantially overlaps an entirety of the second flow channel to provide cleaning of the valve with flow from the first port. 11 . The valve of claim 10 wherein fluid flow enters the first port in a first direction toward a first side of the elastomeric disk and wherein the first flow channels include diverter walls directing flow opposite the first direction toward a second side of the elastomeric disk. 12 . The valve of claim 1 wherein the first and second ports are coaxial about a common axis and the elastomeric disk extends generally perpendicular to the common axis. 13 . The valve of claim 12 wherein at least one of the first and second ports provides a connection adapted to standard luer locks or tube connections for IV sets. 14 . The valve of claim 1 wherein the elastomeric disk between the first and second valve seats provides substantially circular and concentric contact lines between the valve seats and the elastomeric disk. 15 . The valve of claim 1 wherein the first and second valve seats are ridges contacting opposite sides of the elastomeric disk. 16 . The valve of claim 1 wherein the housing is assembled from multiple thermoplastic molded components. 17 . A method of providing intravenous fluids to a patient and permitting sampling of patient blood using a valve for bidirectional flow of the type providing: a housing providing a first and second port communicating with an internal housing volume; an elastomeric disk positioned between the first and second port in the internal housing volume, the elastomeric disk retained against the housing within an annular region of the elastomeric disk between a central region and an outer peripheral region so that the central region and outer peripheral region are free to move with respect to the housing; the housing providing a first valve seat engaging the outer peripheral region of the elastomeric disk when the elastomeric disk is in a relaxed state and having a second valve seat engaging the central region when the elastomeric disk is in a relaxed state; the housing further providing first flow channels leading from the first port to the elastomeric disk to press the elastomeric disk against the second valve seat and to press the elastomeric disk away from the first valve seat when pressure at the first port is greater than pressure at the second port; and the housing further providing a second flow channels leading from the second port to the elastomeric disk to press the elastomeric disk against the first valve seat and to lift the elastomeric disk away from the second valve seat when pressure at the second port is greater than pressure at the first port; the method comprising the steps of: (a) connecting an IV line to a patient extending to the valve; (b) attaching the valve to an intravenous fluid source to provide flow from the intravenous fluid source through the valve and IV line to the patient; and (c) attaching the valve to a syringe to draw blood through the valve and IV line from the patient.