초록 ▼

A noise attenuation panel used to attenuate noise in aircraft engines includes a cellular core and a facing sheet formed with an array of holes. The holes are laser drilled to provide: (i) hole size variation over the facing sheet; (ii) non-circular hole cross section; (iii) polygonal hole cross sec

A noise attenuation panel used to attenuate noise in aircraft engines includes a cellular core and a facing sheet formed with an array of holes. The holes are laser drilled to provide: (i) hole size variation over the facing sheet; (ii) non-circular hole cross section; (iii) polygonal hole cross section; (iv) hole locations not contiguous with walls of the cellular core; and (v) inclined holes passing through the facing sheet in a direction inclined to the normal to the facing sheet.

대표청구항 ▼

1. A method of manufacturing a noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face

1. A method of manufacturing a noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face and a rear face,extends across the ends of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend through the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the front face of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:the method comprises producing, in a hole producing step, the multiplicity of holes through the facing component part in the form of an array of holes having a hole size which so varies over the facing component part as to provide optimum attenuating performance of the panel over a predetermined range of gaseous flow conditions at the front face of the facing component part. 2. The method according to claim 1, wherein the holes of the array are spaced apart with a hole spacing which varies over the facing component part. 3. The method according to claim 1, wherein the holes in the facing component part are produced by laser drilling. 4. The method according to claim 3, wherein the two component parts are assembled to form the noise attenuation panel after the laser drilling is performed. 5. The method according to claim 4, wherein the laser drilling is carried out using a high intensity laser. 6. The method according to claim 5, wherein the high intensity laser is a CO 2 or YAG laser. 7. The method according to claim 3, wherein the two component parts are assembled to form the noise attenuation panel before the laser drilling is performed. 8. The method according to claim 7, wherein the laser drilling is carried out using a low intensity laser. 9. The method according to claim 8, wherein the low intensity laser is a UV Eximer laser. 10. A method of manufacturing a noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face and a rear face,extends across the ends of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend through the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the front face of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:the method comprises producing, in a hole producing step, the multiplicity of holes through the facing component part in the form of an array of holes having a non-circular hole cross-section which is so chosen as to provide optimum combined structural strength and attenuating performance of the panel. 11. A method according to claim 10, wherein the holes of the array have a non-circular hole cross-section which varies over the facing component part. 12. The method according to claim 10, wherein the holes of the array are spaced apart with a hole spacing which varies over the facing component part. 13. The method according to claim 10, wherein the holes in the facing component part are produced by laser drilling. 14. The method according to claim 13, wherein the two component parts are assembled to form the noise attenuation panel after the laser drilling is performed. 15. The method according to claim 14, wherein the laser drilling is carried out using a high intensity laser. 16. The method according to claim 15, wherein the high intensity laser is a CO 2 or YAG laser. 17. The method according to claim 13, wherein the two component parts are assembled to form the noise attenuation panel before the laser drilling is performed. 18. The method according to claim 17, wherein the laser drilling is carried out using a low intensity laser. 19. The method according to claim 18, wherein the low intensity laser is a UV Eximer laser. 20. A noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face and a rear face,extends across the ends of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend through the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the front face of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:the multiplicity of holes through the facing component part form an array of holes having a hole size which so varies over the facing component part as to provide optimum attenuating performance of the panel over a predetermined range of gaseous flow conditions at the front face of the facing component part. 21. A panel according to claim 20, wherein the holes of the array are spaced apart with a hole spacing which varies over the facing component part. 22. A noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face and a rear face,extends across the ends of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend through the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the frontface of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:the multiplicity of holes through the facing component part form an array of holes having a non-circular hole cross-section which is so chosen as to provide optimum combined structural strength and attenuating performance of the panel. 23. A panel according to claim 22, wherein the holes of the array have a non-circular hole cross-section which varies over the facing component part. 24. A panel according to claim 22, wherein the holes of the array are spaced apart with a hole spacing which varies over the facing component part. 25. A noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face, anda facing component part which:has a front face and a rear face,extends across the ends of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend throug h the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the front face of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:the multiplicity of holes through the facing component part form an array of holes which pass through the component part from the rear face of the facing component part to the front face of the facing component part in a predetermined hole direction inclined to the normal to the front face. 26. A panel according to claim 25, wherein the inclination of the holes is so chosen as to provide flow paths to the cell defining structure which optimise attenuating performance of the panel. 27. A panel according to claim 25, wherein the facing component part is a multi-ply structure comprising a plurality of superposed ply elements and wherein the holes are so inclined as to offset structural weakness of the multi-ply structure in the region of the holes. 28. A panel according to claim 25, wherein the panel is so located as to be subjected to gaseous fluid flow over the surface of the front face of the facing component part in a predetermined fluid flow direction and wherein the predetermined hole direction has a component along the front face of the facing component part which is in the same direction as the predetermined fluid flow direction. 29. A panel according to claim 25, wherein the holes are so inclined as to reduce the tendency of the holes to become clogged by debris carried in the gaseous fluid flow over the front face of the facing component part. 30. A noise attenuation panel which comprises:a cellular component part which:has a front face and a rear face anda cell defining wall structure which defines a multiplicity of cells between the front face and the rear face and which terminate in end portions at the front face of the cellular component part, anda facing component part which:has a front face and a rear face,extends across the end portions of the cells of the cellular component part at the front face thereof with the rear face of the facing component part adjacent the front face of the cellular component part, andis provided with a multiplicity of holes which extend through the facing component part from the front face to the rear face to provide gaseous fluid communication between the cells of the cellular component part and the front face of the facing component part for the attenuation of noise generated by gaseous fluid flow over the surface of the front face of the facing component part,characterised in that:no holes are provided at locations of the facing component part which in the assembled panel are contiguous with the end portions of the walls of the cell defining wall structure.