Shape-morphing space frame apparatus using linear bistable elements
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04B-001/34
E04B-001/344
E04B-001/343
E04B-001/19
출원번호
US-0691110
(2017-08-30)
등록번호
US-10006196
(2018-06-26)
발명자
/ 주소
Alqasimi, Ahmad
Lusk, Craig
출원인 / 주소
University of South Florida
대리인 / 주소
Choksi, Nilay J.
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A shape-morphing space frame (SMSF) utilizing the linear bistable compliant crank-slider mechanism (LBCCSM). The frame's initial shape is constructed from a single-layer grid of flexures, rigid links and LBCCSMs. The grid is bent into the space frame's initial cylindrical shape, which can morph beca
A shape-morphing space frame (SMSF) utilizing the linear bistable compliant crank-slider mechanism (LBCCSM). The frame's initial shape is constructed from a single-layer grid of flexures, rigid links and LBCCSMs. The grid is bent into the space frame's initial cylindrical shape, which can morph because of the inclusion of LBCCSMs in its structure. The design parameters include the frame's initial height, its tessellation pattern (including the unit cell bistable elements' placement), its initial diameter, and the resulting desired shape. The method used in placing the unit cell bistable elements considers the principle stress trajectories. Two different examples of shape-morphing space frames are presented herein, each starting from a cylindrical-shell space frame and morphing, one to a hyperbolic-shell space frame and the other to a spherical-shell space frame, both morphing by applying moments, which shear the cylindrical shell, and forces, which change the cylinder's radius using Poisson's effect.
대표청구항▼
1. A method of producing predictable and controllable length or shape changes in a space frame, allowing morphing from an initial stable shape into a resulting stable shape that is different from the initial shape, without the use of a hard stop, the method comprising: identifying the initial shape
1. A method of producing predictable and controllable length or shape changes in a space frame, allowing morphing from an initial stable shape into a resulting stable shape that is different from the initial shape, without the use of a hard stop, the method comprising: identifying the initial shape and identifying the resulting shape, each shape having a first end and a second end;providing at least one polygon formed of unit cells and rigid links, the unit cells and rigid links interconnecting in a tessellation pattern to form the initial shape, the tessellation pattern further including a top and a bottom formed of the rigid links,wherein each unit cell has bistability, such that a first stable position is the initial shape and a second stable position is the resulting shape, wherein the each unit cell does not include the hard stop to achieve the bistability;selecting the number and location of the unit cells in each of the polygons;determining an initial radius or length of the initial shape;determining a change in the radius or length at a midpoint of the resulting shape;determining the relative motion of the first end and the second end of the initial shape; andfabricating and configuring the space frame in the initial position based on the foregoing steps, whereby the space frame in the initial position can morph into the resulting position by a force being exerted onto the space frame,wherein each of the unit cells is in an open position or a closed position corresponding to the initial position or the resulting position of the space frame,wherein the unit cell becomes shorter when morphing from the open position to the closed position when the unit cell is placed in a diagonal direction of the polygon. 2. The method of claim 1, wherein the unit cell becomes bulging when morphing from the closed position to the open position when the unit cell is placed in a radial direction of the polygon. 3. The method of claim 1, wherein the unit cell becomes longer when morphing from the closed position to the open position when the unit cell is placed in a diagonal direction of the polygon. 4. The method of claim 3, wherein the unit cell becomes necked when morphing from the open position to the closed position when the unit cell is placed in a radial direction of the polygon. 5. The method of claim 1, wherein the each polygon includes five elements including the unit cells and the rigid links,the each polygon is formed of four sides and one diagonal,the four sides include two vertical elements and two horizontal elements. 6. The method of claim 5, further comprising selecting an initial height of the initial shape, and dividing the initial height of the initial shape into a number of slices, the height of the slices being equal to the length of the horizontal elements, the vertical elements being rigid links. 7. The method of claim 1, further comprising defining a maximum actuation force needed for transition between the initial shape and the resulting shape. 8. The method of claim 5, wherein each diagonal element is a unit cell, each radial element is a unit cell, and each vertical element is a rigid link. 9. The method of claim 8, wherein the initial stable shape is a cylindrical shell and the resulting stable shape is a hyperbolic shell, such that in the initial stable shape, the each diagonal unit cell is in the open stable position and the each radial unit cell is in the open stable position, and in the resulting stable shape, the each diagonal unit cell is in the closed stable position and the each radial unit cell is in the closed stable position. 10. The method of claim 8, wherein the initial stable shape is a cylindrical shell and the resulting stable shape is a spherical shell, such that in the initial stable shape, the each diagonal unit cell is in the open stable position and the each radial unit cell is in the closed stable position, and in the resulting stable shape, the each diagonal unit cell is in the closed stable position and the each radial unit cell is in the open stable position. 11. The method of claim 5, wherein the tessellation pattern is formed of square or polygon sub-grids. 12. The method of claim 11, wherein the square or polygon sub-grids are formed of the plurality of unit cells and rigid links.
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