Patent Number: 
Section: claims

1. A wall segment ( 10 ) for a device enclosing a work zone to protect against laser beams of a laser source ( 38 ), the wall segment ( 10 ) comprising an inner wall ( 12 ) adjacent to the work zone and an outer wall ( 14 ) substantially parallel to the inner wall ( 12 ) and further away from the work zone than the inner wall ( 12 ), characterized in that the inner wall ( 12 ) and the outer wall ( 14 ) are both metallic sheet metal, the inner wall ( 12 ) is provided with a coating ( 16 ) at least on a side surface of the inner wall ( 12 ) facing the work zone, and a side surface of the outer wall ( 14 ) facing the inner wall ( 12 ) being of lesser absorption capability with respect to laser radiation than the coating ( 16 ). 2. The wall segment as claimed in  claim 1 , characterized in that the coating ( 16 ) is black paint. claim 1 3. The wall segment as claimed  claim 1 , characterized in that at least one partition ( 24 ,  28 ) is mounted between the inner wall ( 12 ) and the outer wall ( 14 ). claim 1 4. The wall segment as claimed in  claim 1 , characterized in that the at least one partition ( 28 ) is made of metal. claim 1 5. Wall segment as claimed in  claim 4 , characterized in that one partition ( 26 ) is fitted at least on one of its sides ( 32 ) with a coating ( 18 ). claim 4 6. Wall segment as claimed in  claim 5 , characterized in that the partition ( 26 ) adjacent to the outer wall ( 14 ) is fitted with a highly absorbent coating of paint ( 30 ) and that the absorption of the partition ( 24 ) adjacent to the inner wall ( 12 ) is low. claim 5 7. A wall segment ( 10 ) for a device enclosing a work zone to protect against laser beams of a laser source ( 38 ), the wall segment ( 10 ) comprising an inner wall ( 12 ) adjacent to the work zone and an outer wall ( 14 ) substantially parallel to the inner wall ( 12 ) and further away from the work zone than the inner wall ( 12 ), characterized in that the inner wall ( 12 ) and the outer wall ( 14 ) are both metallic sheet metal, the inner wall ( 12 ) is provided with a coating ( 16 ) provided to absorb laser radiation at least on a side surface of the inner wall ( 12 ) facing the work zone, and a side surface of the outer wall ( 14 ) facing the inner wall ( 12 ) being of lesser absorption capability with respect to laser radiation than the coating ( 16 ); wherein at least one partition ( 24 ,  28 ) is made of one of iron sheet metal and graphite-coated sheet metal; one partition ( 26 ) is fitted at least on one of its sides ( 32 ) with a black-paint coating ( 18 ); and the partition ( 26 ) adjacent to the outer wall ( 14 ) is fitted with a coating of paint ( 30 ) provided to a absorb laser radiation so that the coating ( 16 ) on incidence of a laser beam begins to burn and that the absorption of the partition ( 24 ) adjacent to the inner wall ( 12 ) is being of lesser absorption capability with respect to the laser radiation than the coating of paint ( 30 ). 8. The wall segment as claimed in  claim 1 , characterized in that a spacing ( 34 ) between the inner wall ( 12 ) and the outer wall ( 14 ) corresponds approximately to the diameter of an initial beam of the laser source ( 38 ). claim 1 9. Wall segment as claimed in  claim 1 , characterized in that the spacings ( 36 ) between adjacent walls and/or partitions such as between the inner wall ( 12 ) and the partition ( 24 ) or between the partition ( 24 ) and the partition ( 26 ,  28 ) or between the partition ( 24 ,  26 ,  28 ) and the outer wall ( 14 ) corresponds approximately to the diameter of the initial beam of the laser source ( 38 ). claim 1 10. Wall segment as claimed in  claim 1 , characterized in that the spacing ( 34 ,  36 ) of adjacent walls and/or partitions ( 12 ,  14 ,  24 ,  26 ,  28 ) is at least 60 mm. claim 1 11. Wall segment as claimed in  claim 1 , characterized in that the distance ( 40 ) between the wall segment ( 10 ) and the laser source ( 38 ) is at least four-fold to five-fold the focal length of the fiber optics. claim 1 12. Wall segment as claimed in  claim 1 , characterized in that the end faces ( 42 ,  44 ) of the multi-shell wall component ( 10 ) are closed. claim 1 13. Wall segment as claimed in  claim 12 , characterized in that the boreholes ( 50 ) are present in a vertical, upper zone, in the zone of the end face  942 ). claim 12 14. Wall segment as claimed in  claim 1 , characterized in that a smoke or gas sensor ( 46 ,  48 ) connected to a control is mounted between the inner wall ( 12 ) and the outer wall ( 14 ). claim 1 15. Wall segment as claimed in  claim 14 , characterized in that at least two sensors ( 46 ,  48 ) are mounted at different positions in the wall component ( 10 ). claim 14 16. Wall segment as claimed in  claim 1 , characterized in that the inner and outer walls ( 12 ) and ( 14 ) resp. and any partition(s) ( 24 ,  26 ,  28 ) mounted in-between comprise essentially mutually flush polycarbonate or glass panes. claim 1 17. Wall segment as claimed in  claim 16 , characterized in that the panes consist of at least two, more sequentially mounted layers. claim 16 18. A protective device against laser beams with at least one wall segment as claimed in  claim 1 , characterized in that the protective device is a framework consisting of steel beams and that the walls and/or partitions ( 14 ,  16 ,  24 ,  26 ,  28 ) are affixed to this framework. claim 1 19. The wall segment as claimed in  claim 1 , wherein said inner wall and outer walls are made of one of iron and steel. claim 1 20. The wall segment as claimed in  claim 4 , wherein the at least one partition ( 24 ,  28 ) is made of one of iron sheet metal, a steel sheet metal, and a graphite-coated sheet metal. claim 4 21. The wall segment as claimed in  claim 5 , wherein said coating ( 18 ) is a black-paint coating ( 30 ). claim 5 22. A laser beam protective device comprising: a first outer wall having a first surface facing towards a laser source, said first surface having a first coating of a material of relatively low absorptivity and high reflectivity; and  a second inner wall disposed between said first outer wall and said laser source, said second inner wall having an inner side facing said laser source and having a second coating of material of relatively high absorptivity;  wherein said second coating burns when exposed to said laser beam. 23. The laser protective device according to  claim 22 , wherein said first outer and said second inner wall are made of a metallic material. claim 22 24. The laser protective device according to  claim 22 , further comprising: claim 22 at least one gas sensor disposed between said inner and outer walls to detect gas emitted when said second coating of said second inner wall burns from exposure to said laser beam. 25. The wall segment as claimed in  claim 1 , characterized in that the coating ( 16 ) is provided to absorb a laser radiation so that the coating ( 16 ) on incidence of a laser beam begins to burn and the side surface of the outer wall ( 14 ) facing the inner wall ( 12 ) being of lesser absorption capability with respect to the laser radiation than the coating ( 16 ). claim 1 26. A wall segment ( 10 ) for a device enclosing a work zone to protect against laser beams of a laser source ( 38 ), the wall segment ( 10 ) comprising an inner wall ( 12 ) adjacent to the work zone and an outer wall ( 14 ) substantially parallel to the inner wall ( 12 ) and further away from the work zone than the inner wall ( 12 ), characterized in that the inner wall ( 12 ) and the outer wall ( 14 ) are both metallic sheet metal, the inner wall ( 12 ) is provided with a coating ( 16 ) of black paint at least on a side surface of the inner wall ( 12 ) facing the work zone, and a side surface of the outer wall ( 14 ) facing the inner wall ( 12 ) being of lesser absorption capability than the coating ( 16 ). 27. The wall segment as claimed in  claim 26 , characterized in that the coating ( 16 ) is provided to absorb a laser radiation so that the coating ( 16 ) on incidence of a laser beam begins to burn and the side surface of the outer wall ( 14 ) facing the inner wall ( 12 ) being of lesser absorption capability with respect to the laser radiation than the coating ( 16 ). claim 26 28. The wall segment as claimed in  claim 1 , wherein the coating has a high absorption capability of such kind that the coating on incidence of the laser beam begins to burn. claim 1 29. The wall segment as claimed in  claim 25 , wherein the coating ( 16 ) is black paint. claim 25