The invention relates to a thin sound absorbing multi-layer assembly, which is intended, in particular, to reduce interior or exterior noise of a motor vehicle. The assembly according to the invention comprises at least three stacked layers consisting respectively of: a first layer (4) being impervi
The invention relates to a thin sound absorbing multi-layer assembly, which is intended, in particular, to reduce interior or exterior noise of a motor vehicle. The assembly according to the invention comprises at least three stacked layers consisting respectively of: a first layer (4) being impervious and having an area weight of between (20) to (100 g/m2); a second layer (3) having an air flow resistance of between (250) to (2500 Ns/m3) and an area weight of between (15) to (250 g/m2); a third layer (2) being an open pored, acoustic spring type layer having a thickness of between (2) to (30 mm) and an area weight of between (50) to (1000 g/m2).
대표청구항▼
The invention claimed is: 1. A multi-layer sound absorber to be mounted on a carrier layer or a frame for reducing the exterior and interior noise caused by the engine of an automotive vehicle or by its rolling/rotating wheels, whether in the engine region or the under body regions or the wet area
The invention claimed is: 1. A multi-layer sound absorber to be mounted on a carrier layer or a frame for reducing the exterior and interior noise caused by the engine of an automotive vehicle or by its rolling/rotating wheels, whether in the engine region or the under body regions or the wet area of doors of automotive vehicles, comprising: a first layer being impervious to contaminations and having an area weight of 20-100 g/m2, a second layer being open pored or open celled, and exhibiting an air flow resistant Rt in the range of 250<Rt<2500 Ns/m3, the second layer having a thickness of less than one millimeter and a weight per unit area of 15-250 g/m2, a third layer being porous and consisting of one of an open pored non-woven fibre layer and an open celled foam layer and having a thickness of 2-30 mm and an area weight of 50 to 1000 g/m2, the first layer surrounding and sealing the other two layers against any exterior contamination. 2. Sound absorber according to claim 1, wherein the second layer has an air flow resistance in the range of 400<Rt<1500 Ns/m3. 3. Sound absorber according to claim 1 wherein the second layer comprises micro-fibres, the fibre fineness of which amounts to 0.1-0.5 dtex. 4. Sound absorber according to claim 3, wherein the micro-fibres are made of polypropylene, polyester, copolyether-polyester, polyethylene, polyethylene terephthalate, polybutylene terephthalate or polyamide. 5. Sound absorber according to claim 1, wherein the second layer has an area weight of 50-100 g/m2. 6. Sound absorber according to claim 1, wherein the second layer is a micro-perforated layer, the perforations of which having an opening size of 0.1-mm and generate an open area ration of 0.01-5%. 7. Sound absorber according to claim 1, wherein the third layer is anon-woven layer comprising synthetic fibres, in particular polyester fibres, or natural fibres, in particular cotton fibres, or a mixture of natural and synthetic fibres. 8. Sound absorber according to claim 7, wherein the third layer comprises binders, in particular made of bi-component fibres, thermoplastic fibres, thermoplastic or thermoset resins, rubber or a combination thereof. 9. Sound absorber according to claim 1, wherein the third layer consists of a foam layer with a density of 10 to 50 kg/m3. 10. Sound absorber according to claim 9, wherein the third layer consists of an open celled foam made of one of polyurethane and melamine. 11. A sound absorber according to claim 1, wherein the second and third layer, when measured together, have a combined air flow resistance in the range of 400<Rt<3000 Ns/m3. 12. Sound absorber according to claim 1, wherein the first layer is made, at least partially, of polypropylene, polyester, polyamide, thermoplastic olefin, or any other thermoplastic material, or is made at least partially of a thermoset plastic, in particular polyurethane. 13. Sound absorber according to claim 1 wherein the absorber comprises a fourth layer facing the third layer and being impervious to contamination. 14. Sound absorber according to claim 13, wherein the absorber is sealed by welding the first layer with the fourth layer along their edges. 15. Sound absorber according to claim 13, wherein the absorber is sealed by welding all the layers together along their edges. 16. Sound absorber according to claim 1 wherein the absorber is affixed to a supporting carrier by means of high frequency welding. 17. Sound absorber according to claim 1 wherein the absorber is affixed to a supporting carrier by means of a double sided tape. 18. Sound absorber according to claim 1 wherein the absorber is affixed to a supporting carrier by means of separate fasteners. 19. Sound absorber according to claim 1 wherein at least the first layer is welded to the supporting carrier layer in order to provide fixation and sealing against any contamination of the second and the third layer. 20. Sound absorber according to claim 1 wherein at least the first, the second and the third layer are welded together to the supportive carrier layer in order to provide a fixation and sealing against any contamination to the second and the third layer. 21. Sound absorber according to claim 1 wherein the absorber comprises a plurality of individually sealed pockets. 22. Sound absorber according to claim 7, wherein the third layer is made of a non-woven layer of fibres which are interlocked by means of a needling process or by means of a water jet treatment.
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