Pump mechanism with double reservoir and stationary fluid ports

The invention claimed is: 1 . A drug delivery system, comprising: a pumping mechanism, comprising: a needle or cannula; an outer reservoir for storing a liquid drug; an inner reservoir for storing the liquid drug, configured to be positionable and linearly translatable within the outer reservoir; a static plunger; a hollow plunger tube, supporting the static plunger and including an internal fluidic path extending between the inner reservoir and the outer reservoir; a dispense port for dispensing the liquid drug that is received from the reservoirs via the hollow plunger tube, the dispense port having a structure positioned in the hollow plunger tube that extends between the needle or cannula to the inner reservoir to provide a path to remove air from the inner reservoir; a fill port for receiving the liquid drug to be stored in the reservoirs liquid drug being transported from the fill port to the inner reservoir via the hollow plunger tube. 2 . The drug delivery system of claim 1 wherein: the dispense and fill ports remain static as the inner reservoir linearly translates into and out of the outer reservoir. 3 . The drug delivery system of claim 1 wherein the inner reservoir and the outer reservoir move apart as the pumping mechanism is being filled with the liquid drug. 4 . The drug delivery system of claim 1 further comprising: a fluid seal between an interior surface of the outer reservoir and an exterior surface of the inner reservoir. 5 . The drug delivery system of claim 1 , further comprising: a fluid seal disposed on a circumferential surface of the static plunger such to seal between the static plunger and an interior surface of the inner reservoir. 6 . The drug delivery system of claim 4 further comprising: a fluid seal between the hollow plunger tube and an end wall of the inner reservoir. 7 . The drug delivery system of claim 1 wherein the inner reservoir and the outer reservoir have a cross-sectional shape selected from a group consisting of an elliptical cross-sectional shape, a flattened circular cross-sectional shape, and a rectangular cross-sectional shape with rounded corners. 8 . The drug delivery system of claim 1 wherein the hollow plunger tube extends through an end wall of the inner reservoir such as to enable the liquid drug to pass between the inner reservoir and the outer reservoir. 9 . A drug delivery device, comprising: a pumping mechanism, comprising: a needle or cannula an outer reservoir, for storing a drug, rigidly attached to a structure external to the pumping mechanism; an inner reservoir for storing the drug, configured to linearly translate into and out of the outer reservoir; a static plunger disposed interior to the inner reservoir; a hollow plunger tube, supporting the static plunger and including an internal fluidic path extending between the inner reservoir and the outer reservoir; a dispense port for dispensing the drug received from the reservoirs via the hollow plunger tube, the dispense port having a structure positioned in the hollow plunger tube that extends between the needle or cannula to the inner reservoir to provide a path to remove air from the inner reservoir; and a fill port for receiving the drug, the drug being transported from the fill port to the inner reservoir via the hollow plunger tube.