Optical light mixer providing a homogenized and uniform light beam

The invention claimed is: 1. An optical light mixer providing a homogenized and uniform light beam, said optical light mixer being formed of a solid transparent material, where light enters said optical light mixer through an entrance surface and is reflected through a body to an exit surface where said light exits said optical light mixer, wherein said optical light mixer comprises: a first solid transparent part formed as a pyramid frustum where the top surface of said pyramid frustum forms said entrance surface; a second solid transparent part formed as a cone frustum, the bottom surface of said cone frustum forms said exit surface. 2. The optical light mixer according to claim 1 , wherein the area of the bottom surface of said pyramid frustum is smaller than the area of the top surface of said cone frustum. 3. The optical light mixer according to claims 1 , wherein said optical light mixer further comprises: a third part comprising an input surface and an output source, said third part is positioned between said first part and said second part such that light exiting the bottom surface of said pyramid frustum enters said input surface and is reflected through said third part to said output surface where after said light enters the top surface of said cone frustum. 4. The optical light mixer according to claim 3 , wherein the cross section of said input surface is substantially identical to said bottom surface of said pyramid frustum. 5. The optical light mixer according to claims 3 , wherein the cross section of said output surface is substantially identical to said top surface of said cone frustum. 6. The optical light mixer according to claim 4 , wherein the cross sectional form of said third part gradually transforms from said cross sectional form of said input surface to said cross sectional form of said output surface. 7. The optical light mixer according to claims 1 , wherein said bottom surface of said cone frustum comprises further optical means for forming said light exiting said light mixer. 8. An illumination device comprising a number of light sources generating light and an optical light mixer, said optical light mixer being formed of a solid transparent material, and said light enters said optical light mixer through an entrance surface and is reflected through a body to an exit surface where said light exits said optical light mixer, wherein said optical light mixer comprises: a first solid transparent part formed as a pyramid frustum where the top surface of said pyramid frustum forms said entrance surface; a second solid transparent part formed as a cone frustum, the bottom surface of said cone frustum forms said exit surface. 9. The illumination device according to claim 8 , wherein the area of the bottom surface of said pyramid frustum is smaller than the area of the top surface of said cone frustum. 10. The illumination device according to claims 8 , wherein said optical light mixer further comprises: a third part comprising an input surface and an output source, said third part is positioned between said first part and said second part such that light exiting the bottom surface of said pyramid frustum enters said input surface is reflected through said third part to said output surface where after said light enters the top surface of said cone frustum. 11. The illumination device according to claim 10 , wherein the cross section of said input surface is substantially identical to said bottom surface of said pyramid frustum. 12. The illumination device according to claims 10 , wherein the cross section of said output surface is substantially identical to said top surface of said cone frustum. 13. The illumination device according to claim 11 , wherein the cross section form of said third part gradually transforms from said cross sectional form of said input surface to said cross sectional form of said output surface. 14. The illumination device according to claims 8 , wherein said bottom surface of said cone frustum comprises further optical means for forming said light exiting said light mixer. 15. The illumination device according to claims 8 , wherein said illumination device comprises an optical zoom element, said optical zoom element is adapted to deflect said light exiting said optical light mixer and is movable in relation to said optical light mixer. 16. The illumination device according to claim 15 , wherein the zoom lens is spherical and rotationally asymmetric in relation to the optical axis.