초록 ▼

Seal assemblies employing reversible thermally expandable and/or contractible material that can be controlled and remotely changed to alter the seal effectiveness, wherein the seal assemblies actively change dimensional and/or modulus properties such as stiffness, shape orientation, and the like. I

Seal assemblies employing reversible thermally expandable and/or contractible material that can be controlled and remotely changed to alter the seal effectiveness, wherein the seal assemblies actively change dimensional and/or modulus properties such as stiffness, shape orientation, and the like. In this manner, in seal applications such as a vehicle door application, door opening and closing efforts can be minimized yet seal effectiveness can be maximized.

대표청구항 ▼

The invention claimed is: 1. A seal assembly, comprising: a seal membrane formed of an elastic material, the seal membrane comprising a sealed interior region; a reversible thermally expandable and contractible material disposed in the interior region; at least one electrically conductive element i

The invention claimed is: 1. A seal assembly, comprising: a seal membrane formed of an elastic material, the seal membrane comprising a sealed interior region; a reversible thermally expandable and contractible material disposed in the interior region; at least one electrically conductive element in thermal communication with the reversible thermally expandable and contractible material; and an activation device in electrical communication with the at least one electrically conductive element, the activation device being operable to selectively provide an electrical signal to the at least one electrically conductive element and effectuate a phase change in the reversible thermally expandable and contractible material. 2. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material comprises paraffin. 3. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material has a percent volume change between a liquid state and a solid state of at least 5 percent within an operating temperature between about-30 to 200�� C. 4. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material has a Coefficient of Cubic Expansion greater than 4��10-4 (��C.)-1 within an operating temperature of about-30 to about 200�� C. 5. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material contracts in response to an activation signal provided by the activation device. 6. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material expands in response to an activation signal provided by the activation device. 7. The seal assembly of claim 1, wherein the reversible thermally expandable and contractible material comprises a shape memory polymer. 8. A seal assembly, comprising: a seal membrane formed of an elastic material, the seal membrane comprising a sealed interior region; a reversible thermally expandable and contractible material disposed in the interior region; and at least one conduit in thermal communication with the reversible thermally expandable and contractible material, wherein the conduit is in fluid communication with a fluid effective to heat and cool the reversible thermally expandable and contractible material and effectuate a phase change in the reversible thermally expandable and contractible material. 9. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material comprises paraffin. 10. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material has a percent volume change between a liquid state and a solid state of at least 5 percent within an operating temperature between about-30 to 200�� C. 11. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material has a Coefficient of Cubic Expansion greater than 4��10-4 (��C.)-1 within an operating temperature of about-30 to about 200�� C. 12. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material contracts in response to the activation signal. 13. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material expands in response to the activation signal. 14. The seal assembly of claim 8, wherein the reversible thermally expandable and contractible material comprises a shape memory polymer. 15. A method for selectively sealing a first surface against a second surface, comprising: attaching a seal assembly to a selected one of the first surface and the second surface, wherein the seal assembly comprises a seal membrane formed of an elastic material comprising a sealed interior region, a reversible thermally expandable and contractible material disposed in the interior region; and at least one electrically conductive element in thermal communication with the reversible thermally expandable and contractible material, wherein the seal membrane contacts the selected one of first surface and the second surface and the reversible thermally expandable and contractible material has a percent volume change between a liquid state and a solid state of at least 5 percent within an operating temperature between about-30 to 200�� C.; and selectively expanding and contracting the reversible thermally expandable and contractible material to selectively increase or decrease a sealing force of the seal membrane against the first surface and the second surface. 16. The method of claim 15, wherein the reversible thermally expandable and contractible material comprises paraffin. 17. The method of claim 15, wherein the reversible thermally expandable and contractible material has a Coefficient of Cubic Expansion greater than 4��10-4 (��C.)-1 within an operating temperature of about-30 to about 200�� C. 18. The method of claim 15, wherein the reversible thermally expandable and contractible material contracts. 19. The method of claim 15, wherein the reversible thermally expandable and contractible material expands. 20. The method of claim 15, wherein the reversible thermally expandable and contractible material comprises a shape memory polymer. 21. A method for selectively sealing a first surface against a second surface, comprising: attaching a seal assembly to a selected one of the first surface and the second surface, wherein the seal assembly comprises a seal membrane formed of an elastic material comprising a sealed interior region, a reversible thermally expandable and contractible material disposed in the interior region; and at least one fluid conduit in thermal communication with the reversible thermally expandable and contractible material, wherein the seal membrane contacts the selected one of first surface and the second surface; and flowing a fluid through the conduit to selectively expand and contract the reversible thermally expandable and contractible material and effectuate a phase change in the reversible thermally expandable and contractible material and increase or decrease a sealing force of the seal membrane against the first surface and the second surface. 22. The method of claim 21, wherein flowing the fluid through the conduit comprises flowing coolant from a radiator and into the conduit. 23. The method of claim 21, wherein flowing the fluid through the conduit comprises flowing heated or cooled air into the conduit. 24. The method of claim 21, wherein the reversible thermally expandable and contractible material comprises paraffin. 25. The method of claim 21, wherein the reversible thermally expandable and contractible material has a percent volume change between a liquid state and a solid state of at least 5 percent within an operating temperature between about-30 to 200�� C. 26. The method of claim 21, wherein the reversible thermally expandable and contractible material has a Coefficient of Cubic Expansion greater than 4��10-4 (��C.)-1 within an operating temperature of about-30 to about 200�� C. 27. The method of claim 21, wherein the reversible thermally expandable and contractible material contracts. 28. The method of claim 21, wherein the reversible thermally expandable and contractible material expands. 29. The method of claim 21, wherein the reversible thermally expandable and contractible material comprises a shape memory polymer. 30. A remotely activatable seal assembly comprising: a seal membrane formed of an elastic material, the seal membrane comprising a sealed interior region; a reversible thermally expandable and contractible material disposed in the sealed interior region; and at least one conductive element in thermal communication with the reversible thermally expandable and contractible material and remotely activated and caused to heat or cool the reversible thermally expandable and contractible material and effectuate a phase change in the reversible thermally expandable and contractible material.