LED illumination assembly with collimating optic

What is claimed: 1. A beam forming optic for use with an LED having an optical axis centered on an area of light emission from which light is emitted in a hemispherical pattern surrounding the optical axis, said light emitted to one side of a first plane behind said LED and perpendicular to the optical axis, said beam forming optic comprising: a first light entry surface configured to cooperate with a first light emission surface to redirect a portion of the light emitted by said LED divergent from the optical axis into a direction substantially parallel with the optical axis; a second light entry surface configured to cooperate with an internal reflecting surface and a second light emission surface to redirect a portion of the light emitted by said LED divergent from the optical axis into a direction substantially parallel with the optical axis; and a polygonal periphery extending from said internal reflecting surface to said second light emission surface; wherein said first light entry surface and said first light emission surface have lobes projecting away from said optical axis to redirect light emitted by said LED that would otherwise be incident on said polygonal periphery, light passing through said second light entry surface is incident on said internal reflecting surface and said first and second light entry surfaces cooperate to prevent light emitted from said LED from contacting said polygonal periphery. 2. The beam forming optic of claim 1 , wherein said first light entry surface is a planar surface with a noncircular periphery parallel to the first plane. 3. The beam forming optic of claim 1 , wherein said first light emission surface is defined by a curve rotated about the optical axis. 4. The beam forming optic of claim 1 , wherein said second light entry surface is defined by a sphere centered on the area of light emission of said LED. 5. The beam forming optic of claim 1 , wherein said polygonal periphery comprises a plurality of surfaces and said surfaces are angularly aligned with said lobes about the optical axis. 6. The beam forming optic of claim 1 , wherein said first light entry surface and said first light emission surface have a plurality of lobes extending away from the optical axis between a plurality of indentations, said polygonal periphery comprises a plurality of surfaces adjoined at corners, and said indentations are angularly aligned with said corners about the optical axis. 7. The beam forming optic of claim 1 , wherein said polygonal periphery comprises a plurality of surfaces substantially perpendicular to the first plane. 8. The beam forming optic of claim 1 , wherein said polygonal periphery is defined by a square centered on the optical axis. 9. The beam forming optic of claim 1 , wherein said second light entry surface has a plurality of indentations and said internal reflecting surface contains a plurality of peaks extending towards said second light emission surface, and said plurality of indentations are angularly aligned with said plurality of peaks about the optical axis. 10. The beam forming optic of claim 1 , wherein said polygonal periphery comprises a plurality of surfaces including at least one planar surface and at least one curved surface. 11. An LED light assembly comprising: an LED having an optical axis centered on an area of light emission from which narrow angle light and wide angle light is emitted in a hemispherical pattern surrounding the optical axis, said light emitted to one side of a first plane behind said LED and perpendicular to the optical axis; and an optic comprising a plurality of light entry surfaces, a plurality of light emission surfaces, an internal reflecting surface, and a polygonal periphery, a first light entry surface that redirects the narrow angle light through a first light emission surface, a second light entry surface that redirects the wide angle light towards said internal reflecting surface, said internal reflecting surface having a plurality of peaks and redirecting the wide angle light through a second light emission surface, and said polygonal periphery extends between said internal reflecting surface and said second light emission surface, said polygonal periphery comprises a plurality of planar surfaces, adjacent planar surfaces of said plurality of planar surfaces meet to define a corner and said peaks of said internal reflecting surface extend into said corner; wherein said narrow angle light and said wide angle light exit said optic substantially collimated with respect to the optical axis and said plurality of light entry surfaces, said plurality of light emission surfaces, and said internal reflecting surface cooperate to prevent light emitted from said LED from contacting said polygonal periphery. 12. The LED light assembly of claim 11 , wherein said first light emission surface is defined by a curve rotated about the optical axis. 13. The LED light assembly of claim 11 , wherein said second light entry surface is defined by a sphere centered on the area of light emission of said LED. 14. The LED light assembly of claim 11 , wherein said polygonal periphery comprises a plurality of surfaces substantially perpendicular to the first plane. 15. The LED light assembly of claim 11 , wherein said polygonal periphery comprises a plurality of surfaces including at least one planar surface and at least one curved surface. 16. The LED light assembly of claim 11 , wherein said first light entry surface and said first light emission surface have lobes that radially project away from the optical axis to redirect the narrow angle light that would otherwise be incident on said polygonal periphery. 17. The LED light assembly of claim 16 , wherein said polygonal periphery comprises a plurality of surfaces and said surfaces are angularly aligned with said lobes about the optical axis. 18. A beam forming optic for use with an LED having an optical axis centered on an area of light emission from which light is emitted in a hemispherical pattern surrounding the optical axis, said light emitted to one side of a first plane behind said LED and perpendicular to the optical axis, said beam forming optic comprising: a first light entry surface configured to cooperate with a first light emission surface to redirect a portion of the light emitted by said LED divergent from the optical axis into a direction substantially parallel with the optical axis; a second light entry surface configured to cooperate with an internal reflecting surface and a second light emission surface radially outward of said first light emission surface to redirect a portion of the light emitted by said LED divergent from the optical axis into a direction substantially parallel with the optical axis; a polygonal periphery extending from said internal reflecting surface to said second light emission surface defines an outer periphery of said first light entry surface and an inner periphery of said second light entry surface; a peripheral bypass surface between said first light entry surface and said second light entry surface, said peripheral bypass surface defined by a line coincident with the path of light with the smallest angular displacement relative to the optical axis that is incident on said internal reflecting surface rotated about the optical axis, and wherein substantially all of the light incident on said second light entry surface is incident on said internal reflecting surface and said first and second light entry surfaces prevent light emitted from said LED from being incident upon said polygonal