IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0077493
(2005-03-09)
|
등록번호 |
US-8240677
(2012-08-14)
|
발명자
/ 주소 |
- Browne, Alan L.
- Johnson, Nancy L.
- Barvosa-Carter, William
- McKnight, Geoffrey P.
- Keefe, Andrew C.
- Henry, Christopher P.
|
출원인 / 주소 |
- GM Global Technology Operations LLC
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
15 |
초록
▼
Active seal assemblies employing active materials that can be controlled and remotely changed to alter the seal effectiveness, wherein the active seal assemblies actively change modulus properties such as stiffness, shape orientation, and the like. In this manner, in seal applications tailored for v
Active seal assemblies employing active materials that can be controlled and remotely changed to alter the seal effectiveness, wherein the active seal assemblies actively change modulus properties such as stiffness, shape orientation, and the like. In this manner, in seal applications tailored for vehicles such as in a vehicle door application, door opening and closing efforts can be minimized yet seal effectiveness can be maximized.
대표청구항
▼
1. An active material based seal assembly adapted for use with an adjacent surface, said assembly comprising: a seal structure comprising a non-active sealing member, and an active material operable to change at least one attribute in response to an activation signal, wherein the change in the at le
1. An active material based seal assembly adapted for use with an adjacent surface, said assembly comprising: a seal structure comprising a non-active sealing member, and an active material operable to change at least one attribute in response to an activation signal, wherein the change in the at least one attribute changes a modulus property and/or shape of the seal structure, wherein the active material is selected from the group consisting essentially of shape memory polymers, electroactive polymers, magnetostrictive materials, electrorheological fluids, electrorheological elastomers, magnetorheological fluids, magnetorheological elastomers, dielectric elastomers, ionic polymer metal composites, piezoelectric polymers, piezoelectric ceramics, and various combinations of the foregoing materials; anda controller in operative communication with the active material adapted to selectively provide the activation signal,wherein the active material is drivenly coupled to the member, and configured to cause the member to selectively engage the surface, so as to form a seal therewith. 2. An active material based seal assembly, comprising: a seal structure comprising a non-active sealing member, and an active material operable to change at least one attribute in response to an activation signal, wherein the change in the at least one attribute changes a modulus property and/or shape of the seal structure, wherein the active material is selected from the group consisting essentially of shape memory alloys, electroactive polymers, ferromagnetic shape memory alloys, magnetostrictive materials, electrorheological fluids, electrorheological elastomers, magnetorheological fluids, magnetorheological elastomers, dielectric elastomers, ionic polymer metal composites, piezoelectric polymers, piezoelectric ceramics, and various combinations of the foregoing materials; anda controller in operative communication with the active material adapted to selectively provide the activation signal,wherein the active material presents an elongated, non-circular geometric configuration, is drivenly coupled to the member and configured to laterally expand in response to the signal in one direction, has one lateral end fixedly attached to a rigid member, and a free end operable to cause the member to selectively engage a non-active seal component as a result of the change, so as to form a linearly acting active seal configuration. 3. The active material based seal assembly of claim 1, wherein the seal structure comprises a passive elastic member on a nonactive bistable structure, wherein the bistable structure is disposed over a recessed portion of a surface, and is separate from and drivenly coupled to the active material, the bistable structure is curvilinear with respect to the recessed portion upon discontinuation of the activation signal and substantially linear upon activation of the activation signal to sealingly force the passive elastic member against an opposing surface. 4. The active material based seal assembly of claim 1, wherein the seal structure comprises a first layer of the active material and a second layer of a passive elastic material. 5. The active material based seal assembly of claim 4, wherein the seal structure further comprises an encapsulating layer about the first and second layers. 6. The active material based seal assembly of claim 1, wherein the seal structure comprises an elongated tubular shaped body defining a cross-sectional diameter, and a length substantially greater than the diameter, and the active material is in operative communication with the body, wherein the active material dimensionally expands the tubular shaped body in response to the activation signal, so as to tangentially engage a surface opposite the seal structure. 7. The active material based seal assembly of claim 6, wherein the active material is a bimorphic piezoelectric actuator disposed on an inner surface of the tubular seal body. 8. The active material based seal assembly of claim 6, wherein the body defines an interior space, and the active material is disposed within the space and is coaxially aligned with the body, so as to coextend therewith.
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