Stationary outlet stem pump

We claim: 1. A fluid pump comprising: a piston chamber-forming member defining a chamber about a chamber axis, the chamber having a radially inwardly directed chamber wall, an inner inlet end and an outer open outlet end, the inlet end of the chamber providing for communication with a source of fluid, the piston chamber-forming member including a center post member extending along the axis coaxially of the chamber outwardly from an axially inner end of the post member to a distal axially outer end of the post member whereby an annular compartment is defined within the chamber between the chamber wall and the post member, the post member having an outer wall coaxial about the axis with a radially outwardly directed post side surface, a center passage provided coaxially within the outer wall of the post member, the center passage open at a discharge outlet, the center passage extending axially inwardly from the discharge outlet to a closed axially inner end, a transfer port radially through the outer wall of the post member providing communication between the center passage and the annular compartment through the outer wall, an annular piston-forming element having an axially extending tubular stem with a central passageway defined inside a radially inwardly directed inner tube surface, the central passageway open at an axial inner end and open at an axial outer end, the stem including an annular outlet flexing disc extending radially inwardly from the inner tube surface to a central bore axially through the outlet flexing disc, the stem including an annular post sealing disc extending radially inwardly from the inner tube surface to a central bore axially through the post sealing disc, the post sealing disc carried on the stem at a location spaced axially outwardly from the outlet flexing disc, the annular piston-forming element coaxially slidably received in the annular compartment for reciprocal movement between a retracted position and an extended position, with: (a) the chamber wall radially outwardly of the piston-forming element, and (b) the post member received coaxially within the central passageway passing through the central bore of the outlet flexing disc and the central bore of the post sealing disc, engagement between the piston-forming element and the chamber wall preventing fluid flow therebetween outwardly and inwardly, the outlet flexing disc about the central bore of the outlet flexing disc engaging the post side surface circumferentially thereabout axially inwardly of the transfer port preventing fluid flow axially inwardly between the outlet flexing disc and the post side surface but permitting fluid flow axially outwardly between the outlet flexing disc and the post side surface, the post sealing disc about the central bore of the post sealing disc engaging the post side surface circumferentially thereabout axially outwardly of the transfer port preventing fluid flow axially outwardly and inwardly between the post sealing disc and the post side surface, a first compartment defined between the piston chamber-forming member and the piston-forming element annularly about the post member, the first compartment having a volume that decreases with sliding of the piston-forming element inwardly relative the piston chamber-forming member and increases with sliding of the piston-forming element outwardly relative the piston chamber-forming member, an inlet one-way valve permitting fluid flow into the first compartment from the source of fluid but preventing fluid flow from the first compartment to the source of the fluid, a second compartment defined within the central passageway annularly about the post member radially between the radially outwardly directed post side surface and the radially inwardly directed inner tube surface and axially between the outlet flexing disc and the post sealing disc, wherein sliding of the piston-forming element inwardly relative the piston chamber-forming member reduces the volume of the first compartment with the inlet one-way valve preventing fluid flow from the first compartment to the source of fluid, the engagement between the piston-forming element and the chamber wall preventing fluid flow therebetween outwardly from the first compartment whereby fluid is forced to pass axially outwardly between the outlet flexing disc and the post member into the second compartment and from the second compartment via the transfer port into the center passage and via the central passage to out the discharge outlet, wherein sliding of the piston-forming element outwardly relative the piston chamber-forming member increases the volume of first compartment drawing fluid through the inlet one-way valve from the source of fluid into the first compartment, with the engagement between the piston-forming element and the chamber wall preventing fluid flow therebetween into the first compartment and the outlet flexing disc engaging the post member to prevent fluid flow axially therebetween axially inwardly into the first compartment from the second compartment. 2. A fluid pump as claimed in claim 1 , wherein: the first compartment defined annularly about the post member axially between the piston chamber-forming member and the piston-forming element inwardly of the engagement between the piston-forming element and the chamber wall and inwardly of the outlet flexing disc. 3. A fluid pump as claimed in claim 1 , wherein: the post member having an enlarged diameter axially inner section with a diameter and a reduced diameter axially outer section with a diameter less than the diameter of the axially inner section, the axially outer section located axially outwardly from the axially inner section, the post sealing disc slidably engaging the axially outer section of the post member, the outlet flexing disc slidably engaging the axially inner section of the post member, whereby sliding of the piston-forming element inwardly outwardly relative the piston chamber-forming member reduces increases a volume of the second compartment such that fluid within the center passage is drawn through the transfer port into the second compartment. 4. A fluid pump as claimed in claim 1 , wherein: the stem including an annular chamber sealing disc extending radially outwardly from the stem with a circumferential radially outermost distal edge portion of the chamber sealing disc in engagement with the radially inwardly directed chamber wall providing the engagement between the piston-forming element and the chamber wall preventing fluid flow between the chamber sealing disc and the chamber wall axially outwardly and inwardly. 5. A fluid pump as claimed in claim 1 , wherein the piston-forming element consists of an elastomeric material and the piston-forming element is a unitary element formed by injection molding. 6. A fluid pump as claimed in claim 1 , wherein the center passage is open at the discharge outlet at the distal outer end of the post member. 7. A fluid pump as claimed in claim 1 , wherein the inner inlet end includes an inner end wall, the axially inner end of the post member secured to the inner end wall with the center post member extending outwardly from the inner end wall along the axis. 8. A fluid pump as claimed in claim 1 7, including an inlet opening through the inner end wall in communication with the source of fluid, the inlet one-way valve across the inlet opening permitting fluid flow outwardly through the inlet opening from the source of fluid into the chamber but preventing flow through the inlet opening from the source of fluid into the chamber but preventing fluid flow inwardly through the inlet opening from the chamber to the source of fluid. 9. A fluid pump as claimed in claim 1 , wherein