Dispensing pump with polymer compression spring assembly

What is claimed is: 1. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material, said slotted tubular spring element having strain reducing ribs extending longitudinally along opposing slot edges wherein the strain reducing ribs are symmetrical; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 2. The dispensing pump of claim 1 wherein the strain reducing ribs have parallel facing surfaces at the slot edges and opposed convex surfaces extending circumferentially outward from the slot edges. 3. The dispensing pump of claim 1 wherein the strain reducing ribs have symmetrical convex surfaces extending radially outward from the slot edges. 4. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material, said slotted tubular spring element having strain reducing ribs extending longitudinally along opposing slot edges wherein the strain reducing ribs have symmetrical convex surfaces extending radially outward from the slot edges; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 5. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material wherein the slotted tubular spring element has a first wall thickness at opposing slot edges and a second wall thickness diametrically opposed from said slot edges, said second wall thickness being greater than said first wall thickness; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 6. The dispensing pump of claim 5 wherein said wall thickness increases symmetrically in opposing circumferential directions. 7. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, wherein said first and second loading cones include a first pre-loading wall section and a second primary loading wall section, and whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 8. A dispensing pump comprising: a pump base; a dispensing head; a piston stem extending from the dispensing head and a piston seal disposed about the piston stem; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 9. The dispensing pump of claim 8 wherein the piston seal is disposed below the first loading cone. 10. The dispensing pump of claim 8 wherein the piston seal is disposed above the second loading cone. 11. The dispensing pump of claim 8 wherein the second loading cone is secured to a terminal end of the piston stem. 12. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, wherein the first and second loading cones are located on external surfaces of pump base and dispensing head, and whereby said slotted tubular spring element radially expands to create an opposing extension spring force. 13. The dispensing pump of claim 12 wherein the slotted tubular spring element is hyperboloid in shape. 14. A dispensing pump comprising: a pump base; a dispensing head; and a compression spring assembly comprising: a slotted tubular spring element formed from a tensile polymer material; a first loading cone at a first end of said slotted tubular spring element; and a second loading cone at said second end of said slotted tubular spring element, said second loading cone being axially compressible with said dispensing head toward the first loading cone, wherein the first and second loading cones and the slotted tubular spring element area located inside an accumulator cup of the pump base, and whereby said slotted tubular spring element radially expands to create an opposing extension spring force.