Seal assembly for a valve closure element

I claim: 1. A seal assembly for a closure element of a valve assembly including a valve body with a flow passage and an annular seat extending about the flow passage, the closure element being linearly displaceable along a central axis and including a cylindrical body having an outer circumferential surface, a first axial end disposeable against the annular seat to interrupt flow from the flow passage and a second opposing axial end, the seal assembly comprising: an outer seal including an annular body formed of a polymeric material and having a centerline, an inner circumferential surface defining a seal bore, an outer circumferential surface, and opposing first and second axial ends, the first axial end of the outer seal having a radially-extending, annular sealing surface sealingly engageable with the annular seat; and an inner connector including an annular body formed of a rigid material and disposed at least partially within the seal bore, the inner connector body having an inner circumferential surface with an inside diameter sized lesser than an outside diameter of the outer circumferential surface of the closure element body such that the inner connector body inner circumferential surface is frictionally engageable with the closure element body outer circumferential surface to couple the outer seal with the closure element by an interference fit, the inside diameter of the inner connector body inner circumferential surface being constant along the entire axial length of engagement with the closure element body outer circumferential surface. 2. The seal assembly as recited in claim 1 wherein the inner connector includes: a tubular base portion having an inner surface providing the inner connector inner circumferential surface, an opposing outer circumferential surface and two opposing axial ends, at least a section of the outer seal body inner circumferential surface being disposed about the tubular base portion outer circumferential surface; and a flange portion integrally formed with and extending radially outwardly from one of the base portion axial ends, the flange portion being disposed against or within the outer seal annular body. 3. The seal assembly as recited in claim 1 wherein the outer seal body is formed of polyurethane or another plastic polymer and the inner connector is formed of a metallic material. 4. The seal assembly as recited in claim 1 wherein the annular sealing surface of the outer seal annular body is angled so as to extend axially and radially with respect to the seal body centerline such that when the seal assembly is mounted on the closure element, a radially-inner edge of the annular sealing surface is adjacent to an outer edge of the closure element first axial end and a radially-outer edge of the angled surface is spaced axially toward the second axial end of the closure element. 5. The seal assembly as recited in claim 1 wherein the outer seal annular body further has a counterbore extending axially inwardly from the seal body second axial end and radially outwardly from the seal bore, the counterbore being configured to receive a radial shoulder of the closure element. 6. The seal assembly as recited in claim 1 wherein the outer seal annular body has a radial thickness between the outer seal annular body inner and outer circumferential surfaces, the inner connector body has a radial thickness between the inner connector body inner and outer circumferential surfaces and the outer seal annular body thickness is greater than the inner connector body radial thickness. 7. The seal assembly as recited in claim 1 wherein the seal assembly is removable from the valve closure element by slidably displacing the inner connector inner circumferential surface against the closure element cylindrical body outer circumferential surface until the seal assembly is separated from the closure element. 8. A valve assembly comprising: a valve body having a central flow passage and an annular valve seat extending circumferentially about the central flow passage; a closure element linearly displaceable along a central axis and including a cylindrical body having an outer circumferential surface, a first axial end disposeable against the annular valve seat to interrupt flow from the central flow passage and a second opposing axial end; and a seal assembly including: an outer seal including an annular body formed of a polymeric material and having a centerline, an inner circumferential surface defining a seal bore, an outer circumferential surface, and opposing first and second axial ends, the first axial end of the outer seal having a radially-extending, annular sealing surface sealingly engageable with the annular valve seat; and an inner connector including an annular body formed of a rigid material and disposed at least partially within the seal bore, the inner connector annular body having an inner circumferential surface with an inside diameter sized lesser than an outside diameter of the outer circumferential surface of the closure element body such that the inner connector annular body inner circumferential surface is frictionally engageable with the closure element cylindrical body outer circumferential surface to couple the outer seal with the closure element by an interference fit, the inside diameter of the inner connector annular body inner circumferential surface being constant along the entire axial length of engagement with the closure element cylindrical body outer circumferential surface. 9. The valve assembly as recited in claim 8 wherein the closure element is displaceable along the central axis between a first position at which the closure element first axial end is disposed against the annular valve seat and a second position at which the closure element first axial end is spaced from the annular valve seat. 10. The valve assembly as recited in claim 8 wherein the inner connector includes: a tubular base portion having an inner surface providing the inner connector inner circumferential surface, an opposing outer circumferential surface and two opposing axial ends, at least a section of the outer seal annular body inner circumferential surface being disposed about the tubular base portion outer circumferential surface; and a flange portion integrally formed with and extending radially outwardly from one of the base portion axial ends, the flange portion being disposed against or within the outer seal annular body. 11. The valve assembly as recited in claim 8 wherein the outer seal annular body is formed of polyurethane or another plastic polymer and the inner connector is formed of a metallic material. 12. The valve assembly as recited in claim 8 wherein the annular sealing surface of the outer seal annular body is angled so as to extend axially and radially with respect to the seal body centerline such that a radially-inner edge of the annular sealing surface is adjacent to an outer edge of the closure element first axial end and a radially-outer edge of the angled surface is spaced axially toward the second axial end of the closure element. 13. The valve assembly as recited in claim 8 wherein the outer seal annular body further has a counterbore extending axially inwardly from the outer seal annular body second axial end and radially outwardly from the seal bore, the counterbore being configured to receive a radial shoulder of the closure element. 14. The valve assembly as recited in claim 9 wherein the outer seal annular body has a radial thickness between the outer seal annular body inner and outer circumferential surfaces, the inner connector annular body has a radial thickness between th