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An isolation damper capable of forming an airtight or zero-leakage seal. The damper includes an annular frame or frame and a flexible seal member that extends around an inner surface of the frame. The seal member is at least partially embedded or integrated into the frame and includes an exposed su

An isolation damper capable of forming an airtight or zero-leakage seal. The damper includes an annular frame or frame and a flexible seal member that extends around an inner surface of the frame. The seal member is at least partially embedded or integrated into the frame and includes an exposed surface. The seal member can be a single or multi-component seal member. A rotatable shaft extends across the interior annular aperture of the annular frame, and a blade is coupled to the shaft. The blade that is attached to the shaft is rotatable between closed and open positions. An outer circumferential edge of the blade engages the exposed surface of the seal member when the blade is rotated to a closed position thereby forming an air tight seal.

대표청구항 ▼

What is claimed: 1. An isolation damper capable of forming a seal, comprising: an annular frame that defines an inner aperture and has an inner annular surface; a multi-component flexible seal member that is at least partially embedded within the annular frame and that extends around the inner annu

What is claimed: 1. An isolation damper capable of forming a seal, comprising: an annular frame that defines an inner aperture and has an inner annular surface; a multi-component flexible seal member that is at least partially embedded within the annular frame and that extends around the inner annular surface of the annular frame, wherein the flexible seal member is an elastomer, and wherein the flexible seal member is fixed in position relative to the annular frame such that the flexible seal member is incapable of translation relative to the annular frame, and wherein the multi-component flexible seal member includes: a first seal component; and a second seal component, wherein a durometer value of the first seal component is greater than a durometer value of the second seal component, and a shaft that extends across the inner aperture of the annular frame; and a blade that is coupled to the shaft and that is rotatable between open and closed positions, wherein the second seal component is embedded within the annular frame, the first seal component covers the second seal component, is partially embedded in the annular frame, and has an exposed surface for contacting the blade; wherein an outer circumferential edge of the blade sealingly engages the flexible seal member when the blade is in the closed position, thereby forming the seal; and wherein the annular frame further defines a first groove toward a first end of the inner annular surface and a second groove toward a second end of the inner annular surface, a first portion of the seal member being positioned within the first groove and a second portion of the seal member being positioned within the second groove. 2. The damper of claim 1, wherein the outer circumferential edge of the blade compresses the flexible seal member when the blade is in the closed position. 3. The damper of claim 1, wherein the outer circumferential edge of the blade compresses the flexible seal member with increasing force as the blade is moved from a position in which the outer circumferential edge initially contacts the flexible seal member to the closed position. 4. The damper of claim 1, wherein the seal is zero leakage air-tight seal. 5. The damper of claim 4, wherein the zero leakage air-tight seal can withstand a pressure of about 30 w.g. 6. The damper of claim 1, wherein the elastomer is silicone. 7. The damper of claim 1, wherein the flexible seal member has a thickness of about ��" to about 4". 8. The damper of claim 1, wherein the flexible seal member has a width of about ��" to about 12". 9. The damper of claim 1, wherein the width of the flexible seal member is substantially the same along the inner annular surface of the annular frame. 10. The damper of claim 1, wherein the flexible seal member is applied to a middle portion of the inner annular surface of the annular frame. 11. The damper of claim 1, wherein the flexible seal member covers about 10-90% of the surface area of the inner annular surface of the annular frame. 12. The damper of claim 1, wherein the flexible seal member can assume a relaxed state and a compressed state. 13. The damper of claim 12, wherein a central portion of the flexible seal member assumes the relaxed state when the damper is open and assumes the compressed state when the damper is closed. 14. The damper of claim 13, wherein a thickness of the flexible seal member in the compressed state is about 1-75% of the thickness of the flexible seal member in the relaxed state. 15. The damper of claim 1, wherein the blade is a unitary body. 16. The damper of claim 1, wherein the blade has an elliptical shape 17. The damper of claim 16, wherein the blade has an ellipticity of about 0.1% to about 10%. 18. The damper of claim 1, wherein the annular frame is free of a backstop. 19. The damper of claim 1, wherein a first edge of the flexible seal member is inserted into the first groove and a second edge of the flexible seal member is inserted into the second groove. 20. The damper of claim 1, wherein the outer circumferential edge of the blade sealingly engages a central portion of the first seal component when the blade is in the closed position. 21. The damper of claim 1, wherein the first seal component is wider than the second seal component. 22. The damper of claim 1, wherein the first seal component includes an air pocket. 23. The damper of claim 1, wherein the flexible seal member includes an air pocket. 24. The damper of claim 1, wherein the flexible seal member is resilient. 25. The damper of claim 1, wherein the first and second grooves are substantially collinear and open toward each other. 26. An isolation damper capable of forming a zero-leakage air-tight seal, comprising: an annular frame that defines an inner aperture and has an inner annular surface; a flexible multi-component seal member that is at least partially embedded within the annular frame, wherein the flexible seal member is an elastomer, and wherein the flexible multi-component seal member is fixed in position relative to the annular frame such that the seal member is incapable of translation relative to the annular frame, and wherein a durometer value of a first seal component is greater than a durometer value of a second seal component, and wherein the flexible seal member extends around the inner annular surface of the annular frame and that is capable of assuming a relaxed state when the damper is open and a compressed state when the damper is closed; a shaft that extends across the inner aperture of the annular frame; and a blade that is coupled to the shaft and that is rotatable between open and closed positions, wherein an outer circumferential edge of the blade compresses and sealingly engages the flexible seal member when the blade is in the closed position, thereby forming the zero-leakage air-tight seal; wherein the annular frame further defines a first groove toward a first end of the inner annular surface and a second groove toward a second end of the inner annular surface, a first portion of the seal member being positioned within the first groove and a second portion of the seal member being positioned within the second groove. 27. The damper of claim 26, wherein the outer circumferential edge of the blade compresses the flexible seal member with increasing force as the blade is moved from a position of the outer circumferential edge initially contacting the flexible seal member to the closed position. 28. The damper of claim 26, wherein the zero leakage air tight seal can withstand a pressure of about 30w.g. 29. The damper of claim 26, wherein the elastomer is silicone. 30. The damper of claim 26, wherein the flexible seal member covers about 10-90% of the surface area of the inner annular surface of the annular frame. 31. The damper of claim 26, wherein a thickness of the flexible seal member in the compressed state is about 1-75% of the thickness of the flexible seal member in the relaxed state. 32. The damper of claim 26, wherein the blade is a unitary body. 33. The damper of claim 26, wherein the blade has an elliptical shape. 34. The damper of claim 26, wherein the blade has an ellipticity of about 0.1% to about 10%. 35. The damper of claim 26, wherein the annular frame is free of a backstop. 36. The damper of claim 26, wherein the multi-component flexible seal member includes: a first seal component; and a second seal component, wherein the second seal component is embedded within the annular frame, the first seal component covers the second seal component, and is partially embedded in the annular frame. 37. The damper of claim 36, wherein the outer circumferential edge of the blade sealingly engages a central portion of the first seal component when the blade is in the closed position. 38. The damper of claim 36, wherein the first seal component is wider than the second seal component. 39. The damper of claim 36, wherein the first seal component includes an air pocket. 40. The damper of claim 26, wherein the flexible seal member includes an air pocket. 41. The damper of claim 26, wherein the flexible seal member is resilient. 42. The damper of claim 26, wherein the first and second grooves are substantially collinear and open toward each other.