Patent Number: 047476451
Section: claims

1. Illumination system for material testing apparatus to test the resistance of a sample (S) to fading, weathering, aging and the like, by irradiation with light of controlled spectral distribution, having a central light source (9) emitting radiation in the ultraviolet (UV), visible, and infrared (IR) spectral ranges,  the sample (S) being positioned spaced from the central light source in the path of light therefrom and for irradiation thereby; and  means for accurately controlling the radiation spectrum received by the sample, located between the light source (9) and the sample (S), said means including a structure defining a plurality of adjacent sections, the light source being located within said structure,  said means comprising, in accordance with the invention  a UV filter (10, 310, 410, 510, 610) located in a first section and forming a first outer filter;  a first mirror-filter combination (11,311,411,511,611) located in a second section, and including a first UV mirror (12,312,412,512,612) having its mirror surface directed toward the light source (9) and a first IR filter (13,313,413,513,613), essentially congruent with the first UV mirror, said first IR filter of the first mirror-filter combination forming a second outer filter; and  a second mirror-filter combination (14,314,414,514,614) including, in essentially congruent sandwich form, an inner UV mirror (15) having its mirror surface directed towards the light source (9), an outer UV mirror (16) having its mirror surface directed towards the outer filters and an intermediate IR filter (17) located between said inner and outer UV mirrors (15,16),  the UV filter (10,310,410,510,610) being positioned entirely within the optical shadow of the second mirror-filter combination (14,314,414,514,614);  and wherein the second mirror-filter combination (14,314,414, 514,614) is located spaced from the first mirror-filter combination (11,311,411,511,611) and positioned in the region of an end zone between the light source (9) and the first mirror-filter combination, and having an end zone positioned to direct UV radiation to the first UV filter (10,310,510,610) of the first section,  the first UV filter of the first section thereby forming a radiation window for the UV radiation reflected within the radiation spectrum control means from the source (9) while separating UV radiation from the IR filters, and thereby preventing aging effects of the IR filters when subjected to UV radiation.  and wherein a plurality of UV filters (10,310,410,510) and first mirror-filter combinations (11,311,411,511) are provided, each section, alternatingly, including a UV filter and a first mirror-filter combination.  and wherein the lengths of the respective portions (25,26) of the second mirror-filter combination (414) are dimensioned to place the respective UV filter (10) entirely within the optical shadow of the second mirror-filter combination (414) with respect to radiation emitted from said radiation source (9).  said two semi-cylindric elements being joined to form one essentially cylindrical surface, cylindrically surrounding the radiation source (9).  and wherein the outer UV mirror (616) of the second mirror-filter combination (614) comprises two separated mirror elements located adjacent the circular end regions of the half-cylinder formed by the second mirror-cylinder combination. 2. System according to claim 1, wherein the number of sections is an even number, surrounding the radiation source (9); 3. System according to claim 2, wherein the second mirror-filter combination (14,314,414,514) has an end or edge portion located at every second junction between the UV filter (10,310,510) and the first mirror-filter combination (11,311,511), and extends at an angle with respect to the adjacent UV filter dimensioned to place the respective UV filter entirely in the optical shadow of the second mirror-filter combination. 4. System according to claim 3, wherein the sections are located to form, in plan view, a polygon. 5. System according to claim 3, wherein (FIG. 2) the sections are located to form, in plan view, a square, each side of the square including one UV filter (10) and a first mirror-filter combination (11) forming a side of the square, the square surrounding the radiation source. 6. System according to claim 5, wherein the second mirror-filter combination (14) and the outer UV filter (10) include an angle of between 45.degree. and 80.degree.. 7. System according to claim 6, wherein the angle is between 60.degree. and 70.degree.. 8. System according to claim 6, wherein the angle is about 55.degree.. 9. System according to claim 5, wherein each side of the square includes a UV filter (310) and a first mirror-filter combination (311). 10. System according to claim 2, wherein (FIG. 3) the UV filter and the first mirror-filter combination (311), in plan view, form a triangle surrounding the radiation source (9), and wherein one side of the triangle, each, includes alternatingly, a UV filter (10) and a first mirror-filter combination (311). 11. System according to claim 10, wherein each lateral side of the triangle includes a UV filter (310) and a first filter-mirror combination (311). 12. System according to claim 2, wherein (FIG. 4) the second mirror-filter combination (414) comprises two portions (25,26) which are positioned in V-form with respect to each other, the apex (24) of the V-form second mirror-filter combination (414) being located in a median range of the UV filter (10); 13. System according to claim 1, wherein (FIGS. 5,6) the UV filter (510,610) and the first mirror-filter combination (514,614) are cylindrical and cylindrically surround the radiation source (9). 14. System according to claim 13, wherein (FIG. 5) a plurality of alternatingly, adjacently located UV filters (510) and first mirror-filter combinations (514) are provided, each forming a part-cylindrical surface of said radiation spectrum control means. 15. System according to claim 14, wherein the second mirror-filter combination (514) has an end or edge portion located at every second junction between the UV filter (510) and the first mirror-filter combination (511), and extends at an angle with respect to the adjacent UV filter dimensioned to place the respective UV filter entirely in the optical shadow of the second mirror-filter combination. 16. System according to claim 13, wherein (FIG. 6) the UV filter, in plan view, is a semi-circular filter and, defining a semi-cylindrical filter element, and the first mirror-filter combination, in plan view, is semi-circular and defines a semi-cylindrical element (614), 17. System according to claim 16, wherein the second mirror-filter combination (614) is essentially, in plan view, semi-cylindrical;