Injector piston with improved seal

We claim: 1. A piston assembly for a fluid delivery device, the device having a measuring chamber defined by an inner cylindrical surface and an axial end face, a flow port through the end face, and a central axis extending through the chamber, the piston assembly comprising: a piston body disposeable within the chamber so as to be linearly displaceable along the central axis, the piston body including a cylindrical head, the head having first and second axial ends and an outer circumferential surface, and a rod extending axially from the second axial end of the piston head; and a seal attached to the first axial end of the piston head so as to be linearly displaceable with the piston body along the central axis and having an annular sealing lip sealingly engageable with the inner cylindrical surface of the measuring chamber and an axial end engageable with the end face of the measuring chamber. 2. The piston assembly as recited in claim 1 wherein the seal includes: an inner cylindrical portion having first and second axial ends, the first axial end being coupled with the piston head and the second axial end being engageable with the end face of the measuring chamber; and a radial shoulder portion having an inner radial end connected with the cylindrical portion and an opposing outer radial end, the sealing lip extending axially from the outer end of the shoulder portion and being spaced radially outwardly from the cylindrical portion. 3. The piston assembly as recited in claim 2 wherein the sealing lip has a first axial end integrally formed with the outer end of the shoulder portion, a free, second axial end and an outer circumferential surface sealingly engageable with the inner cylindrical surface of the measuring chamber. 4. The piston assembly as recited in claim 3 wherein the sealing lip is tapered so as to extend radially-outwardly in an axial direction from the lip first end to the lip second end when the piston assembly is separate from the measuring chamber. 5. The piston assembly as recited in claim 2 wherein: the piston head has a cavity extending axially inwardly from the first axial end of the piston head; and the seal shoulder portion is disposed generally centrally on the seal cylindrical portion such that a first section of the cylindrical portion is defined between the shoulder and the first axial end, the cylindrical portion first section being disposed within the piston head cavity to couple the seal with the piston, and a second section of the cylindrical portion is defined between the shoulder portion and the second axial end. 6. The piston assembly as recited in claim 5 wherein: the piston head has an annular surface defined on the first axial end of the piston head, the annular surface extending radially between the piston cavity and the piston head outer circumferential surface; and the seal shoulder portion has opposing first and second axial ends, the annular surface of the piston head is disposed against the first axial end of the shoulder, and the sealing lip extends axially from the second axial end of the shoulder portion. 7. The piston assembly as recited in claim 2 wherein: the piston head has a cylindrical projection extending axially outwardly from the first axial end of the piston; the seal cylindrical portion has a cavity extending axially inwardly from the first axial end of the cylindrical portion, the piston projection being disposed within the cavity of the seal cylindrical portion to couple the seal with the piston. 8. The piston assembly as recited in claim 7 wherein the seal shoulder portion has first and second axial ends, the first axial end of the shoulder portion being adjacent to the cylindrical portion first axial end and disposed against the piston first axial end, and the sealing lip extends axially from the second axial end of the shoulder portion. 9. The piston assembly as recited in claim 2 wherein an annular channel is defined between the cylindrical body portion and the sealing lip and the sealing lip is configured to be biased radially outwardly by fluid within the annular channel. 10. The piston assembly as recited in claim 1 wherein the seal axial end has a radial surface and one of: a plurality of projections extending axially away from the radial surface, each projection having an outer end contactable with the end face of the measuring chamber, the projections being arranged such that the flow port is at least partially open when the seal axial end engages the end face of the measuring chamber; and a slotted opening extending axially inwardly from the radial end surface and providing at least one flow path from the flow port when the end surface contacts the end face of the measuring chamber. 11. The piston assembly as recited in claim 1 wherein one of: the piston head has a cavity extending inwardly from the first axial end of the piston head and the seal includes a projection disposed within the cavity to couple the seal with the piston; and the seal has first and second axial ends and a cavity extending inwardly from the first axial end of the seal, the second axial end of the seal being engageable with the end face of the measuring chamber, and the piston head includes a projection extending axially from the first axial end and disposeable within the seal cavity to couple the seal with the piston. 12. A seal for a piston assembly for a fluid delivery device, the device having a measuring chamber defined by an inner cylindrical surface and an axial end face, a flow port through the end face, and a central axis extending through the chamber, the piston assembly including a piston body disposeable within the chamber so as to be linearly displaceable along the central axis and including a head having first and second axial ends, the seal comprising: a cylindrical polymeric body having a first axial end coupled with the first axial end of the piston head, an annular sealing lip sealingly engageable with the inner cylindrical surface of the measuring chamber and a second axial end engageable with the end face of the measuring chamber; wherein the seal cylindrical polymeric body includes an inner cylindrical portion having first and second axial ends, the first axial end being coupled with the piston head and the second axial end being engageable with the end face of the measuring chamber, and a radial shoulder portion having an inner radial end connected with the cylindrical portion and an opposing outer radial end, the sealing lip extending axially from the outer end of the shoulder portion and being spaced radially outwardly from the cylindrical portion. 13. The seal as recited in claim 12 wherein the sealing lip has a first axial end integrally formed with the outer end of the shoulder portion, a free, second axial end and an outer circumferential surface sealingly engageable with the inner cylindrical surface of the measuring chamber. 14. The seal as recited in claim 13 wherein the sealing lip is tapered so as to extend radially-outwardly in an axial direction from the lip first end to the lip second end when the piston assembly is separate from the measuring chamber. 15. The seal as recited in claim 12 wherein an annular channel is defined between the cylindrical body portion and the sealing lip and the sealing lip is configured to be biased radially outwardly by fluid within the annular channel. 16. The seal as recited in claim 12 wherein: the piston head has a cavity extending axially inwardly from the first axial end of the piston head; and the seal shoulder portion is disposed generally centrally on t