Low cost focussing system giving high concentrations

The invention claimed is: 1. A focussing system for concentrating solar radiation onto a target surface, comprising: a first reflective element forming part of a conical surface axially aligned along a first alignment axis, the first reflective element being positioned such that when planar radiation is incident on the first reflective element in a direction parallel to the first alignment axis , the planar radiation is focussed towards a first focus lying along the first alignment axis, wherein said part of the conical surface is contained within a sector having an included angle of less than 180 degrees; and a second reflective element having a reflective surface that at all points is flat in a direction parallel to a single reference direction, the second reflective element being positioned between the first reflective element and the first focus such that, when planar radiation is incident on the first reflective element in a direction parallel to the first alignment axis, radiation reflected from the first reflective element onto the second reflective element is focussed towards a second focus. 2. A focussing system according to claim 1 , wherein the first focus is a line focus and the second focus is a point focus. 3. A focussing system according to claim 1 , wherein the second reflective element is at all points curved in all directions not parallel to the single reference direction. 4. A focussing system according to claim 3 , wherein the curvature of the second reflective element is parabolic perpendicular to the single reference direction. 5. A focussing system according to claim 1 , wherein the first reflective element is formed from a sector of the surface of a cone at 45 degrees inclination to the first alignment axis. 6. A focussing system according to claim 1 , wherein the first and second reflective elements are arranged so that when planar radiation is incident on the focussing system parallel to the first alignment axis the second focus is positioned so as to be closer to the source of the planar radiation than the second reflective element. 7. A focussing system according to claim 1 , wherein the first and second reflective elements are arranged so that when planar radiation is incident on the focussing system parallel to the first alignment axis the second focus is positioned so as to be further from the source of the planar radiation than the second reflective element. 8. A focussing system according to claim 1 , wherein: the first reflective element comprises a plurality of separate reflective elements, each forming part of the surface of a cone axially aligned along the first alignment axis, the plurality of reflective elements being such that when planar radiation is incident on the plurality of reflective elements parallel to the first alignment axis, the planar radiation is focussed towards a combined vertical focus, representing the region where intersecting radiation flux from all of the reflective elements is most concentrated in a plane parallel to the first alignment axis and normal to the first reflective elements, and a combined horizontal focus formed from the overlapping line foci from each of the plurality of reflective elements making up the first reflective element. 9. A focussing system according to claim 1 , wherein: the second reflective element comprises a plurality of separate reflective elements, each having a reflective surface that is flat in a direction parallel to a single reference direction, the plurality of reflective elements being such that when planar radiation is incident on the first reflective element parallel to the first alignment axis, radiation reflected from the first reflective element onto the plurality of reflective elements making up the second reflective element is focussed towards a combined vertical focus, representing the region where intersecting radiation flux from all of the plurality of reflective elements making up the second reflective element is most concentrated in a plane parallel to the first alignment axis and normal to the first reflective element, and a combined horizontal focus formed from line foci from each of the plurality of reflective elements making up the second reflective element. 10. A focussing system according to claim 8 , wherein: the or each second reflective element is a planar mirror; and the focussing system further comprises a secondary concentrator configured to concentrate light received from the second reflective element, the secondary concentrator being configured so that the combined vertical focus is positioned at an entry to the secondary concentrator and the combined horizontal focus is positioned at an exit of the secondary concentrator. 11. A focussing system according to claim 1 , wherein one or more of the reflective elements are formed from flat sheet that has been bent or rolled into the required shape. 12. A focussing system according to claim 1 , wherein the first or second reflective element consists of a nominally flat sheet and the system further comprises: curved guides or a clamping system for holding the nominally flat sheet at a peripheral portion in such a way as to cause the nominally flat sheet to bend into the required shape. 13. A focussing system according to claim 1 , further comprising: a third reflective element positioned so as to intercept radiation reflected from the second reflective element and thereby reposition the second focus. 14. A multiple target focussing system, comprising: a first focussing system according to claim 1 ; and a second focussing system according to any one of the preceding claims, wherein: the first and second focussing systems are aligned along a second alignment axis that is parallel to the first alignment axes of the first and second focussing systems, and the second foci of the first and second focussing systems are spaced apart along the second alignment axis; or the first focussing system is aligned along a first alignment axis and the second focussing system is aligned along a second alignment axis, the first alignment axis being parallel to and spaced apart from the second alignment axis, the second foci of the first and second focussing systems being spaced apart in a direction perpendicular to the first and second alignment axes. 15. A solar powered system, comprising: a heat driven engine; a heat exchanger surface for receiving solar energy to drive the heat driven engine; and a focussing system according to claim 1 , configured to concentrate solar radiation onto the heat exchanger surface. 16. A solar powered system according to claim 15 , further comprising: a housing surrounding the heat exchanger surface and configured so as to inhibit upward movement of gas in use from the region of the heat exchanger surface, the housing comprising an aperture to allow solar radiation from the focussing system to reach the heat exchanger surface. 17. A solar powered system, comprising: a heat driven engine; a first heat exchanger surface for receiving solar energy to drive a first part of the heat driven engine; a second heat exchanger surface for receiving solar energy to drive a second part of the heat driven engine, different from the first part; and a multiple target focussing system according to claim 14 , wherein: the second focus of the first focussing system is directed onto the first heat exchanger surface; and the second focus of the second focussing system is directed onto the second heat exchanger surface. 18. A solar powered system, comprising: a photo-volta