초록 ▼

The vented cell structure and fabrication method of the present invention provide an efficient and effective honeycomb structure that allows fluids to flow in and out of the honeycomb without any obstructions that may trap gases and/or liquid in the honeycomb cells. First and second honeycomb layers

The vented cell structure and fabrication method of the present invention provide an efficient and effective honeycomb structure that allows fluids to flow in and out of the honeycomb without any obstructions that may trap gases and/or liquid in the honeycomb cells. First and second honeycomb layers, including first and second cell walls, respectively, that define first and second cells, respectively, are positioned adjacent one another such that the first and second cells are misaligned. The first and second honeycomb layers are connected with adhesive only at intersections of the first and second cell walls to permit fluid to flow between the first and second cells without obstruction. A structural layer defining at least one opening aligned with the first and/or second cells is also applied on opposite sides of the first and second honeycomb layers, to thereby create the vented cell structure.

대표청구항 ▼

1. A vented cell structure, comprising:a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells;a second honeycomb layer adjacent and connected to said first honeycomb layer and comprising a plurality of second cell walls to define a plurality of second

1. A vented cell structure, comprising:a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells;a second honeycomb layer adjacent and connected to said first honeycomb layer and comprising a plurality of second cell walls to define a plurality of second cells, wherein said first honeycomb layer and said second honeycomb layer are positioned such that the plurality of first cells and the plurality of second cells are misaligned, wherein said first honeycomb layer is positioned at least partially in a separate plane than said second honeycomb layer, and wherein the first honeycomb layer and second honeycomb layer are connected only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; anda structural layer on opposite sides of said first honeycomb layer and said second honeycomb layer, wherein said structural layer defines at least one opening aligned with at least one of the first cells and at least one of the second cells, to thereby create the vented cell structure,wherein the plurality of first cell walls of said first honeycomb layer define the plurality of first cells having a different shape and size than the plurality of second cells defined by the plurality of second cell walls of said second honeycomb layer. 2. The vented cell structure of claim 1, wherein at least one of said first and second honeycomb layers comprises at least one of a hexagonal, overexpanded, and flexible core honeycomb cell configuration. 3. The vented cell structure of claim 1, wherein at least one of said first and second honeycomb layers is made of a metallic material. 4. The vented cell structure of claim 1, wherein at least one of said first and second honeycomb layers is made of composite material. 5. The vented cell structure of claim 1, further comprising adhesive between said first honeycomb layer and said second honeycomb layer on only the plurality of first cell walls and the plurality of second cell walls, such that fluid can flow between the plurality of first cells and the plurality of second cells without obstruction. 6. The vented cell structure of claim 5, wherein said adhesive is a reticulated unsupported film adhesive. 7. A vented cell structure, comprising:a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells;a second honeycomb layer adjacent and connected to said first honeycomb layer and comprising a plurality of second cell walls to define a plurality of second cells, wherein said first honeycomb layer and said second honeycomb layer are positioned such that the plurality of first cells and the plurality of second cells are misaligned, wherein said first honeycomb layer is positioned at least partially in a separate plane than said second honeycomb layer, and wherein the first honeycomb layer and second honeycomb layer are connected only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; anda structural layer on opposite sides of said first honeycomb layer and said second honeycomb layer, wherein said structural layer defines at least one opening aligned with at least one of the first cells and at least one of the second cells, to thereby create the vented cell structure,wherein said first honeycomb layer is rotated ninety-degrees relative to said second honeycomb layer. 8. The vented cell structure of claim 7, wherein the plurality of first cell walls of the first honeycomb layer and the plurality of second cell walls of the second hon eycomb layer define the respective plurality of first cells and the plurality of second cells, each having same shape and size. 9. The vented cell structure of claim 7, wherein said structural layer is made of structural fiber reinforced composite material. 10. The vented cell structure of claim 7, wherein said structural layer is made of metallic material. 11. A method of fabricating a vented cell structure, comprising:providing a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells, and a second honeycomb layer comprising a plurality of second cells walls to define a plurality of second cells;applying an adhesive to at least one of the plurality of first cell walls and second cell walls;positioning the first and second honeycomb layers in contact with one another without aligning the plurality of first cells and the plurality of second cells, wherein positioning the first and second honeycomb layers comprises at least partially positioning the first honeycomb layer in a separate plane than the second honeycomb layer, and wherein positioning the first and second honeycomb layers comprises adhesively connecting the first honeycomb layer and the second honeycomb layer only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; andapplying a structural layer to the opposite sides of the first and second honeycomb layers, wherein the structural layer defines at least one opening aligned with at least one of the plurality of first cells and at least one of the plurality of second cells, wherein the adhesive is an unsupported reticulating film adhesive, and wherein applying the adhesive to the plurality of first cell walls and the plurality of second cell walls comprises laying the unsupported reticulating film adhesive on the first and second honeycomb layers, and heating the adhesive to draw the adhesive to the plurality of first and the plurality of second cell walls, such that the adhesive is located only on the plurality of first cell walls and the plurality of second cell walls. 12. The method of claim 11, further comprising bonding the first honeycomb layer to the second honeycomb layer after positioning the first and second honeycomb layers, wherein bonding comprises applying pressure to at least one of the first honeycomb layer and the second honeycomb layer in a direction that is normal to a major surface of the first and second honeycomb layers and heating the first and second honeycomb layers. 13. The method of claim 11, further comprising bonding the structural layer to opposite sides of the first and second honeycomb layers, and bonding the first honeycomb layer to the second honeycomb layer after applying the structural layer to the opposite sides of the first and second honeycomb layers, wherein bonding comprises applying pressure to at least one of the structural layers in a direction that is normal to a major surface of the structural layers and heating the structural layers and the first and second honeycomb layers. 14. The method of claim 11, further comprising defining at least one opening in the structural layer subsequent to applying the structural layer on opposite sides of the first honeycomb layer and the second honeycomb layer. 15. A method of fabricating a vented cell structure, comprising:providing a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells, and a second honeycomb layer comprising a plurality of second cells walls to define a plurality of second cells;applying an adhesive to at least one of the plurality of first cell walls and second cell walls;positioning the first and second honeycomb layers in contact with one another without aligning the pluralit y of first cells and the plurality of second cells, wherein positioning the first and second honeycomb layers comprises at least partially positioning the first honeycomb layer in a separate plane than the second honeycomb layer, and wherein positioning the first and second honeycomb layers comprises adhesively connecting the first honeycomb layer and the second honeycomb layer only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells;applying a structural layer to the opposite sides of the first and second honeycomb layers, wherein the structural layer defines at least one opening aligned with at least one of the plurality of first cells and at least one of the plurality of second cells; andbonding the first honeycomb layer to the second honeycomb layer after positioning the first and second honeycomb layers, wherein bonding comprises applying pressure to at least one of the first honeycomb layer and the second honeycomb layer in a direction that is normal to a major surface of the first and second honeycomb layers and heating the first and second honeycomb layers,wherein applying pressure comprises encasing the first and second honeycomb layers in an encasement and removing air from the encasement. 16. The method of claim 15, wherein encasing the first and second honeycomb layers comprises placing a film on an outward facing surface of at least one of the first and second honeycomb layers. 17. A method of fabricating a vented cell structure, comprising:providing a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells, and a second honeycomb layer comprising a plurality of second cells walls to define a plurality of second cells;applying an adhesive to at least one of the plurality of first cell walls and second cell walls;positioning the first and second honeycomb layers in contact with one another without aligning the plurality of first cells and the plurality of second cells, wherein positioning the first and second honeycomb layers comprises at least partially positioning the first honeycomb layer in a separate plane than the second honeycomb layer, and wherein positioning the first and second honeycomb layers comprises adhesively connecting the first honeycomb layer and the second honeycomb layer only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells;applying a structural layer to the opposite sides of the first and second honeycomb layers, wherein the structural layer defines at least one opening aligned with at least one of the plurality of first cells and at least one of the plurality of second cells; andbonding the structural layer to opposite sides of the first and second honeycomb layers, and bonding the first honeycomb layer to the second honeycomb layer after applying the structural layer to the opposite sides of the first and second honeycomb layers, wherein bonding comprises applying pressure to at least one of the structural layers in a direction that is normal to a major surface of the structural layers and heating the structural layers and the first and second honeycomb layers,wherein applying pressure comprises encasing the structural layers and the first and second honeycomb layers in an encasement and removing air from the encasement. 18. The method of claim 17, wherein encasing the structural layers and the first and second honeycomb layers comprises placing a film on an outward facing surface of at least one of the structural layers. 19. A method of fabricating a vented cell structure, comprising:providing a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells, and a second honeycomb layer comprising a plurality of second cells walls to define a plurality of second cells;applying an adhesive to at least one of the plurality of first cell walls and second cell walls;positioning the first and second honeycomb layers in contact with one another without aligning the plurality of first cells and the plurality of second cells, wherein positioning the first and second honeycomb layers comprises at least partially positioning the first honeycomb layer in a separate plane than the second honeycomb layer, and wherein positioning the first and second honeycomb layers comprises adhesively connecting the first honeycomb layer and the second honeycomb layer only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; andapplying a structural layer to the opposite sides of the first and second honeycomb layers, wherein the structural layer defines at least one opening aligned with at least one of the plurality of first cells and at least one of the plurality of second cells,wherein positioning the first and second honeycomb layer comprises applying pressure to at least one of the first and second honeycomb layer such that edges of at least one of the plurality of first cell walls and the plurality of second cell walls partially cut into one another. 20. A method of fabricating a vented cell structure, comprising:providing a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells, and a second honeycomb layer comprising a plurality of second cells walls to define a plurality of second cells;applying an adhesive to at least one of the plurality of first cell walls and second cell walls;positioning the first and second honeycomb layers in contact with one another without aligning the plurality of first cells and the plurality of second cells, wherein positioning the first and second honeycomb layers comprises at least partially positioning the first honeycomb layer in a separate plane than the second honeycomb layer, and wherein positioning the first and second honeycomb layers comprises adhesively connecting the first honeycomb layer and the second honeycomb layer only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells;applying a structural layer to the opposite sides of the first and second honeycomb layers, wherein the structural layer defines at least one opening aligned with at least one of the plurality of first cells and at least one of the plurality of second cells; androtating the first honeycomb layer relative to the second honeycomb layer prior to positioning the first and second honeycomb layers. 21. A vented cell structure, comprising:a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells;a second honeycomb layer adjacent and connected to said first honeycomb layer and comprising a plurality of second cell walls to define a plurality of second cells, wherein said first honeycomb layer and said second honeycomb layer are positioned such that the plurality of first cells and the plurality of second cells are misaligned, wherein said first honeycomb layer is positioned at least partially in a separate plane than said second honeycomb layer, and wherein the first honeycomb layer and second honeycomb layer are connected only at intersections of the plurality of f irst cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; anda structural layer on opposite sides of said first honeycomb layer and said second honeycomb layer, wherein said structural layer defines at least one opening aligned with at least one of the first cells and at least one of the second cells, to thereby create the vented cell structure,wherein the plurality of first cell walls of said first honeycomb layer and the plurality of second cell walls of said second honeycomb layer partially cut into one another. 22. A vented cell structure, comprising:a first honeycomb layer comprising a plurality of first cell walls to define a plurality of first cells;a second honeycomb layer adjacent and connected to said first honeycomb layer and comprising a plurality of second cell walls to define a plurality of second cells, wherein said first honeycomb layer and said second honeycomb layer are positioned such that the plurality of first cells and the plurality of second cells are misaligned, wherein said first honeycomb layer is positioned at least partially in a separate plane than said second honeycomb layer, and wherein the first honeycomb layer and second honeycomb layer are connected only at intersections of the plurality of first cell walls and the plurality of second cell walls without other obstruction between said first honeycomb layer and said second honeycomb layer, such that fluid can flow without obstruction between the plurality of first cells and the plurality of second cells; anda structural layer on opposite sides of said first honeycomb layer and said second honeycomb layer, wherein said structural layer defines at least one opening aligned with at least one of the first cells and at least one of the second cells, to thereby create the vented cell structure,wherein said first honeycomb layer is rotated relative to said second honeycomb layer.