Shape-shifting surfaces that retain their effectiveness as physical barriers while undergoing changes in shape. The shape changes include any motion that makes the surface more effective at performing its function, such as expansion, shrinkage, twisting, encircling, wiggling, swallowing or constrict
Shape-shifting surfaces that retain their effectiveness as physical barriers while undergoing changes in shape. The shape changes include any motion that makes the surface more effective at performing its function, such as expansion, shrinkage, twisting, encircling, wiggling, swallowing or constricting. The shape-shifting surfaces include tiled arrays of polygonal cells, each cell including specifically-designed compliant flexures attached to specifically-shaped overlapping thin plates or shells. Applications for such surfaces include micro-scale cellular engineering and macro-scale biomedical applications, recreational uses, national security, and environmental protection.
대표청구항▼
1. A unit cell shape shifting surface, comprising: a plurality of layers adjacent overlapping side members;said side members including compliant flexures and flat plate segments;said complaint flexures enabling substantially straight line motion;said overlapping side members being joined at nodes an
1. A unit cell shape shifting surface, comprising: a plurality of layers adjacent overlapping side members;said side members including compliant flexures and flat plate segments;said complaint flexures enabling substantially straight line motion;said overlapping side members being joined at nodes and being pivotal about said nodes, andsaid overlapping side members forming a contiguous line of sight barrier. 2. The shape shifting surface of claim 1, further comprising: each side member of said overlapping side members including a first node positioned at a free end of said compliant flexure and a second node at one corner of said plate segment. 3. The shape shifting surface of claim 2, further comprising: all edges of said shape shifting surface remaining substantially within the boundary of the structure during deformation of said shape shifting surface. 4. The shape shifting surface of claim 2, further comprising: said shape shifting surface returning to its original shape when said externally applied force is released. 5. The shape shifting surface of claim 1, further comprising: said shape shifting surface maintaining a contiguous line of sight barrier when deforming in response to application of an externally applied force. 6. The shape shifting surface of claim 1, further comprising: said plate segments being thin curved shells components. 7. A shape-shifting surface, comprising: a single polygonal cell;said single polygonal cell including compliant flexures attached to flat structures that retain their effectiveness as physical barriers while undergoing changes in shape;said changes in shape selected from a group of changes including expansion, shearing, shrinkage, twisting, vibrating, encircling, wiggling, swallowing or constricting. 8. The shape-shifting surface of claim 7, further comprising: said structures including overlapping thin plates. 9. The shape-shifting surface of claim 7, further comprising: said structures including overlapping thin shells. 10. The shape-shifting surface of claim 7, further comprising: said structures including an initial planar structure and a specific final shape. 11. The shape-shifting structure of claim 10, further comprising: said spatial structure selected from a group of shapes including spheres and cuboctohedrons. 12. A shape-shifting surface, comprising: a tiled array of polygonal cells;each polygonal cell of said tiled array including compliant flexures attached to flat structures that retain their effectiveness as physical barriers while undergoing changes in shape;said changes in shape selected from a group of changes including expansion, shearing, shrinkage, twisting, vibrating, encircling, wiggling, swallowing or constricting. 13. The shape-shifting surface of claim 12, further comprising: said structures including overlapping thin plates. 14. The shape-shifting surface of claim 12, further comprising: said structures including overlapping thin shells. 15. The shape-shifting surface of claim 12, further comprising: said structures including an initial planar structure and a specific final shape such as a spatial structure. 16. The shape-shifting structure of claim 15, further comprising: said spatial structure selected from a group of shapes including spheres and cuboctohedrons. 17. A shape-shifting surface as in claim 12, further comprising: a spatial structure formed of compliant mechanisms. 18. The shape-shifting surface of claim 17, further comprising: said spatial structure formed of a plurality of planar compliant mechanisms. 19. The shape-shifting surface of claim 18, further comprising: said spatial structure formed of a plurality of non-planar compliant mechanisms. 20. A shape-shifting surface as in claim 17, comprising: a truncated icosahedron. 21. The shape-shifting structure of claim 20, further comprising: said truncated icosahedron having planar faces. 22. The shape-shifting structure of claim 20, further comprising: said truncated icosahedron having spherical faces.
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이 특허에 인용된 특허 (4)
Hayward Vincent,CAX ; Grant Danny,CAX, Deformable structural arrangement.
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