Apparatus and method for fabricating and filling containers

The invention claimed is: 1. An apparatus for the fabrication of a container, comprising: a mold, said mold comprising a plurality of mold segments defining a mold cavity in the form of a container, and being further configured to accommodate a tubular preform having a closed first end and defining a preform cavity communicating with a mouth at an open second end; an injection head, said injection head configured to interface with the mouth of the preform and establish fluid communication between a liquid supply and said mouth; an injection valve, said injection valve comprising a valve body configured to selectively permit fluid communication through said injection head; and a stretching rod slideably disposed within the injection head, said stretching rod being mobile relative to the preform along a longitudinal axis of said preform and configured to press against an interior surface of said preform at the closed first end thereof; a displacement plunger disposed coaxially about and mobile relative to said stretching rod between a retracted position within the injection head and an extended position wherein said displacement plunger projects at least partially from said injection head. 2. The apparatus of claim 1 , wherein the injection valve is disposed within the injection head coaxially with a nozzle of said injection head, said injection valve seating in said nozzle when in a closed position. 3. The apparatus of claim 1 , further comprising a sealing means disposed between the stretching rod and the displacement plunger. 4. A method for the fabrication of a container, comprising the steps of: providing a tubular preform, said preform having a closed first end and defining a preform cavity communicating with a mouth at an open second end; disposing the preform at least partially within a mold comprised of a plurality of mold segments and being provided with a mold cavity defining the form of a container; positioning an injection head upon the mouth of the preform, said injection head establishing fluid communication between said mouth and a liquid source, an injection valve comprising a valve body selectively permitting fluid communication through said injection head; opening the injection valve and injecting a volume of liquid into the preform cavity of the preform after insertion of a stretching rod into the preform cavity through the mouth of the preform has begun, said stretching rod being pressed into an interior surface of the closed first end thereof, said preform being thus induced to expand into the contours of the mold cavity and produce a container; inserting a displacement plunger into said container from a retracted position within the injection head to an extended position projecting at least partially from said injection head, thereby displacing a portion of the volume of liquid and expelling it through said injection head; closing the injection valve, thereby blocking fluid communication between the fluid source and the container; and withdrawing the injection head, stretching rod, and displacement plunger from the container. 5. The apparatus of claim 1 , wherein the stretching rod and displacement plunger are both disposed coaxially within the valve body and are configured to be independently mobile relative to both the valve body and each other. 6. The apparatus of claim 2 , wherein the injection valve is disposed within the injection head coaxially with a nozzle of said injection head, said injection valve seating in said nozzle when in a closed position. 7. The apparatus of claim 2 , further comprising a sealing means disposed between the stretching rod and the displacement plunger. 8. The method of claim 4 , wherein, during the insertion of the displacement plunger, the liquid is expelled through the injection head via an annular gap between the displacement plunger and a mouth of the container. 9. The method of claim 8 , wherein the injection head is first slightly withdrawn from a mouth of the container, permitting communication between the container cavity and the surrounding atmosphere before withdrawing the stretching rod and displacement plunger from the container. 10. The method of claim 4 , wherein said displacement plunger moves independently from the valve body and from the stretching rod. 11. The method of claim 10 , wherein, during the insertion of the displacement plunger, the liquid is expelled through the injection head via an annular gap between the displacement plunger and a mouth of the container. 12. The method of claim 10 , wherein the injection head is first slightly withdrawn from a mouth of the container, permitting communication between the container cavity and the surrounding atmosphere before withdrawing the stretching rod and displacement plunger from the container. 13. The method of claim 4 , wherein the injection head is first slightly withdrawn from a mouth of the container, permitting communication between the container cavity and the surrounding atmosphere before withdrawing the stretching rod and displacement plunger from the container.