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machine:design:hexapod:hexegrity hexapod tensegrity As far as I know, this is a new idea. It's like a robocrane, except the six cables are arranged both above and below the platform, allowing force to be applied in any direction. The hexegrity can be made out of steel cables or timing belts anchored to the three orange "towers", and a central "spool" or octahedral compression frame which provides rotational leverage. Adjusting the length of the cables moves the frame in translation and rotation. Although an octahedral frame is more rigid and convenient, the spool version is shown because it's easier to visualize in a simple drawing. Click for an interactive Java applet A simple tripod crane does not constrain the platform rotationally, and also cannot apply force downwards. A double tripod crane is overconstrained, allowing one to vary the tension or preload on a wire connecting the two tripods, but if your control algorithm is wrong the machine will rip itself apart. This preloading is normally a result of gravity and pulls the whole platform down, but we would like a little more control, so I've been playing with various arrangements of springs to get the right preload vector.  The timing belt swivel anchor. There would be one of these at each corner of the octahedron.  a mockup made of straws, wire, and legos Problem: Solution: instead of a timing belt, use a measuring tape, which has an integral stiffening mechanism. Another benefit of measuring tape is that they can be used as a linear encoder, probably best accomplished with a moire mask. This also reduces cost of pulleys and belt significantly. Another (silly) solution: Another (really silly) solution: cheap gearbox substitute: |
DCP_0837_med.JPG 41 download
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hexegrity.png 66 download
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hexegrity-belt-anchor.png 68 download
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