Multi-layer de-icing skin for aircraft platforms: failure resistant, energy efficient and extended lifetime method of use
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-015/22
B64D-015/08
B64C-039/02
출원번호
US-0798278
(2017-10-30)
등록번호
US-10144523
(2018-12-04)
발명자
/ 주소
Bruce, Allan James
Cyrus, Michael
Frolov, Sergey
출원인 / 주소
Sunlight Products Inc.
대리인 / 주소
Mayer & Williams, PC
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
An ice resistant structure is provided which includes a self-supporting, structural platform, a retaining, protective layer and a subsurface anti-icing (AI) and/or de-icing (DI) layer. The retaining, protective layer is disposed over the self-supporting, structural platform. The subsurface anti-icin
An ice resistant structure is provided which includes a self-supporting, structural platform, a retaining, protective layer and a subsurface anti-icing (AI) and/or de-icing (DI) layer. The retaining, protective layer is disposed over the self-supporting, structural platform. The subsurface anti-icing (AI) and/or de-icing (DI) layer is located between the self-supporting, structural platform and the retaining, protective layer. The subsurface Al and/or DI layer is a functional layer such that an Al and/or DI agent is released to a surface of the retaining protective layer by an activation mechanism responsive to a change in an environmental condition.
대표청구항▼
1. An ice resistant structure, comprising: a self-supporting, structural platform; a retaining, protective layer disposed over the self-supporting, structural platform; and a subsurface anti-Icing (Al) and/or de-icing (DI) layer located between the self-supporting, structural platform and the retain
1. An ice resistant structure, comprising: a self-supporting, structural platform; a retaining, protective layer disposed over the self-supporting, structural platform; and a subsurface anti-Icing (Al) and/or de-icing (DI) layer located between the self-supporting, structural platform and the retaining, protective layer, the subsurface Al and/or DI layer being a functional layer such that an Al and/or DI agent is released to a surface of the retaining protective layer by an activation mechanism responsive to a change in an environmental condition, wherein the activation mechanism is passive activation mechanism, and wherein the passive activation mechanism drives the Al and/or DI agent onto the surface using phase separation. 2. The ice resistant structure of claim 1, wherein the structural platform defines an aircraft wing and the retaining protective layer and the subsurface AI and/or DI layer define a skin on at least a portion of the aircraft wing. 3. The ice resistant structure of claim 2, wherein the aircraft wing is an unmanned aerial vehicle (UAV) wing. 4. The ice resistant structure of claim 1, wherein the environmental condition is temperature. 5. The ice resistant structure of claim 1, wherein the passive activation method reversibly drives the AI and/or DI agent onto the surface such that the AI and/or DI agent is delivered onto the surface of the retaining protective layer in response to a first environmental condition and at least some of the AI and/or DI agent returns to the subsurface AI and/or DI layer in response to a second environmental condition. 6. The ice resistant structure of claim 5, wherein the first environmental condition is a temperature at or below about 0° C. and the second environmental condition is a temperature above about 0° C. 7. The ice resistant structure of claim 5, wherein the AI and/or DI agent is substantially preserved after being delivered onto the surface and returned to the subsurface AI and/or DI layer. 8. The ice resistant structure of claim 1, wherein the retaining, protective layer has AI and/or DI characteristics. 9. The ice resistant structure of claim 8, wherein the AI and/or DI characteristics are imparted by a chemical nature of agents contained in the retaining, protective layer. 10. The ice resistant structure of claim 8, wherein the AI and/or DI characteristics are imparted by a structural nature of the retaining, protective layer. 11. The ice resistant structure of claim 10, wherein the retaining, protective layer has a microstructure or nanostructure. 12. The ice resistant structure of claim 1, wherein the activation mechanism is an active activation mechanism. 13. The ice resistant structure of claim 1, wherein the DI agent is selected from the group consisting of a hydrophobic oil, gel, fluorinated material, and a porous nano-textured layer in which a fluorinated material is added. 14. The ice resistant structure of claim 1, wherein the subsurface AI and/or DI layer includes a slippery liquid-infused porous surface (SLIPS) material. 15. The ice resistant structure of claim 1, wherein the retaining, protective layer includes a fluorine-based polymer. 16. The ice resistant structure of claim 15, wherein the fluorine-based polymer includes Ethylene Tetrafluoroethylene (ETFE). 17. The ice resistant structure of claim 1, wherein the subsurface AI and/or DI layer includes polydimethylsiloxane (PDMS) and the AI and/or DI agent includes an alkyl molecule. 18. The ice resistant structure of claim 1, wherein the AI and/or DI agent in the subsurface anti-icing (AI) and/or de-icing (DI) layer is replenishable. 19. The ice resistant structure of claim 18, wherein the anti-icing (AI) and/or de-icing (DI) layer is replenishable by migration of AI or DI chemical agents from outside of outer layers of the ice resistant structure through intermediate layers to chemical agent retaining sub-surface layers. 20. The ice resistant structure of claim 1, wherein at least some of the layers are substantially transparent to selected wavelengths of electromagnetic radiation. 21. The ice resistant structure of claim 20, wherein, the at least some of the layers are substantially transparent to sunlight. 22. The ice resistant structure of claim 21, further comprising semiconductor photovoltaic cells located within, between and/or below one or more of the layers such that the photovoltaic cells receive sufficient sunlight to produce electrical carriers therein. 23. The ice resistant structure of claim 20, wherein at least some of the layers are substantially transparent to radio frequency (RF) radiation. 24. The ice resistant structure of claim 23, further comprising one or more antenna structures secured to the structural platform to function as part of RF receiving and/or transmitting devices. 25. The ice resistant structure of claim 20, wherein at least some of the layers are substantially permeable to chemical, radiative, or analogous agents, indicators or signals which are to be detectable by sensors. 26. The ice resistant structure of claim 25, further comprising one or more sensory devices or structures for chemical, radiative or analogous agents for performing sensory or informational detection and/or analysis. 27. An ice resistant structure, comprising: a self-supporting, structural platform; a retaining, protective layer disposed over the self-supporting, structural platform; and a subsurface anti-icing (Al) and/or de-icing (DI) layer located between the self-supporting, structural platform and the retaining, protective layer, the subsurface Al and/or DI layer being a functional layer such that an Al and/or DI agent is released to a surface of the retaining protective layer by an activation mechanism responsive to a change in an environmental condition, wherein the activation mechanism is a passive activation mechanism, and wherein the passive activation mechanism drives the Al and/or DI agent onto the surface using differences in rates of thermal expansion. 28. An ice resistant structure, comprising: a self-supporting, structural platform; a retaining, protective layer disposed over the self-supporting, structural platform; and a subsurface anti-icing (Al) and/or de-icing (DI) layer located between the self-supporting, structural platform and the retaining, protective layer, the subsurface Al and/or DI layer being a functional layer such that an Al and/or DI agent is released to a surface of the retaining protective layer by an activation mechanism responsive to a change in an environmental condition, wherein the activation mechanism is a passive activation mechanism, and wherein the passive activation mechanism drives the Al and/or DI agent onto the surface using chemical affinity changes of the retaining, protective layer and the subsurface Al and/or DI layer to the Al and/or DI agent.
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이 특허에 인용된 특허 (7)
Alger,Russell G., Anti-icing coatings and methods.
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