An example embodiment of an acoustic treatment for an engine having at least one engine component extending substantially therefrom includes a base layer having a first base surface and an opposing second base surface. The first base surface is configured to mate with an exterior surface of the engi
An example embodiment of an acoustic treatment for an engine having at least one engine component extending substantially therefrom includes a base layer having a first base surface and an opposing second base surface. The first base surface is configured to mate with an exterior surface of the engine. The example embodiment also includes a secondary layer having a secondary layer mating surface and an opposing secondary layer outer surface. The secondary layer mating surface is configured to mate with the second base surface at a mating interface. The interface provides a pass-through location for the at least one engine component.
대표청구항▼
The invention claimed is: 1. An acoustic treatment for an engine having at least one engine component extending substantially therefrom, the acoustic treatment comprising: a base layer having a frame shaped configuration defining a substantially open central region with the at least one engine comp
The invention claimed is: 1. An acoustic treatment for an engine having at least one engine component extending substantially therefrom, the acoustic treatment comprising: a base layer having a frame shaped configuration defining a substantially open central region with the at least one engine component disposed within the open central region, the base layer having a first base surface contoured to mate with an exterior surface of the engine for providing an acoustic seal between the engine and the base layer, and an opposing second base surface; a secondary layer defining a solid configuration covering the open central region of the base layer, the secondary layer having a secondary layer mating surface contoured to mate with the second base surface at a mating interface to provide an acoustic seal about the open central region between the base layer and the secondary layer, with the solid configuration closing the open central region to trap noise between the engine and the secondary layer, the secondary layer further including an opposing secondary layer outer surface; and a shell having a first shell surface contoured to mate with the secondary layer outer surface, the shell substantially covering the secondary layer and at least a portion of the base layer, with the shell and the secondary layer spaced from the engine to define an air gap over the open central region between the engine exterior surface and the first shell surface; wherein the mating interface provides a pass-through location to permit the at least one engine component to pass from the open central region, between the base layer and the secondary layer, wherein the mating interface is contoured to mate with the at least one engine component to provide an acoustic seal against the at least one engine component. 2. The acoustic treatment of claim 1, wherein at least one of the base layer and the secondary layer is formed from a deformable material. 3. The acoustic treatment of claim 2, wherein the air gap over the open central region between the engine and the closed configuration is at least two inches and less than four inches. 4. The acoustic treatment of claim 3, wherein the shell is formed from at least one of plastic, fiberglass, or rubber. 5. The acoustic treatment of claim 3, wherein the shell includes a positive fastener for attaching the shell to the engine. 6. The acoustic treatment of claim 3, wherein the shell is formed from a material having greater rigidity than at least one of the base layer or the secondary layer. 7. The acoustic treatment of claim 2, wherein at least one of the base layer and the secondary layer is formed from at least one of foam, plastic, or rubber. 8. The acoustic treatment of claim 1, wherein the engine exterior surface includes at least one of a cam cover, a cylinder head, or a fuel rail bracket. 9. The acoustic treatment of claim 1, wherein at least one of the base layer or the secondary layer is contoured to enable the at least one engine component to pass through the mating interface without substantial deformation of the base layer and the secondary layer. 10. A method of applying an acoustic treatment to an engine, the method comprising the steps of: mating a first base surface of a base layer defining an open central region with an exterior surface of the engine; mating a secondary layer mating surface of a secondary layer with a second base surface of the base layer, opposed from the first base surface, to define a mating interface between the base layer and the secondary layer, wherein the secondary layer has a solid configuration which covers the oven central region of the base layer, and wherein the secondary layer defines an air gap between the engine and the solid configuration; and contouring the mating interface of the base layer and the secondary layer to mate with at least one engine component to allow the at least one engine component to pass through the mating interface in acoustically sealed engagement with the base layer and the secondary layer. 11. The method of claim 10, further comprising the step of mating a shell with the secondary layer to thermally protect the secondary layer. 12. The method of claim 11, wherein the shell is mated with the secondary layer before the secondary layer mating surface is mated with the second base surface. 13. The method of claim 11, further comprising the step of attaching the shell to the engine with a positive fastener. 14. The method of claim 10, wherein the exterior surface of the engine comprises at least one of a cam cover, a cylinder head, or a fuel rail bracket. 15. The method of claim 10, wherein mating the first base surface with the exterior surface of the engine includes fitting the base layer between one or more of the at least one engine component and the engine. 16. The method of claim 10, wherein mating the secondary layer mating surface with the second base surface includes aligning the at least one engine component with a contoured portion of at least one of the base layer or the secondary layer. 17. The method of claim 10, wherein mating the secondary layer mating surface with the second base surface includes deforming at least one of the base layer or the secondary layer with the at least one engine component. 18. An engine assembly comprising: an internal combustion engine including an acoustic treatment, the internal combustion engine having at least one engine component extending substantially therefrom; and the acoustic treatment including: a base layer having a frame shaped configuration defining a substantially open central region with the at least one engine component disposed within the open central region, the base layer having a first base surface contoured to mate with an exterior surface of the internal combustion engine to provide an acoustic seal between the internal combustion engine and the base layer, and an opposing second base surface; a secondary layer defining a solid configuration covering the open central region of the base layer, the secondary layer having a secondary layer mating surface contoured to mate with the second base surface at a mating interface to provide an acoustic seal about the open central region between the base layer and the secondary layer, with the solid configuration closing the open central region to tap noise between the engine and the secondary layer, the secondary layer further including an opposing secondary layer outer surface; and a shell having a first shell surface contoured to mate with the secondary layer outer surface, the shell substantially covering the secondary layer and at least a portion of the base layer, with the shell and the secondary layer spaced from the engine to define an air gap over the open central region between the engine exterior surface and the first shell surface; wherein the mating interface provides a pass-through location to permit the at least one engine component to pass from the open central region, between the base layer and the secondary layer, wherein the mating interface is contoured to mate with the at least one engine component to provide an acoustic seal against the at least one engine component. 19. The engine assembly of claim 18, wherein the air gap over the open central region between the closed configuration of the secondary layer and the internal combustion engine is at least two inches and less than four inches.
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