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Robotic Hands Grip Without Fingers
sciencehabit writes "Physicists have designed a robotic hand that doesn't have fingers, yet can still serve drinks and draw pictures. The hand is a thin, rubber sack filled with coffee grains or small glass spheres. When it comes into contact with an object, a small pipe sucks air from the sack, causing it to contract and mold to the object's shape. As long as the gripper can fold about one-fourth of the object's surface, it can pick up just about any shape thrown in its path. The article includes a video of the hand in action."
Having a moldable hand that could hold a fork or swipe a credit card could drastically improve the quality of life for the tens of thousands of patients in the United States who have lost an arm.
Why can't they use their other arm?
The Daleks built an empire armed with a zap gun and a plunger...
That's pretty freaking awesome.
The real advances toward powered flight were when we stopped trying to imitate nature and go in a different direction.
What doesn't kill you only delays the inevitable
An excerpt from an Investors Presentation...
Presenter: So, as you can see, this technology is leaps and bounds more sophisticated then the current technology. The advantages for amputees cannot be overstated, the device allows for the easy grasp of such items as food utensils, telephones in time of emergenc...
Investor: Excuse me. A question. Would an amputee be able to open a wallet?
Presenter: Well...I, ummm. I think that might be, well, a bit difficult as the tech stands, in it's current form...but..
Investor: What about a credit card? Could they swipe a credit card? Could they do that?
Presenter: *sigh* Yes...I suppose they could swipe a credit card. I think that would be possible...yes.
Investor: How about mortgage documents? Can they hold a pen?
So if you wanted a multi-purpose robot, you'd have three hands: on the "one" hand you'd have a single-purpose attachement, on the "other" hand you'd have fingers for manipulating things which didn't have a matching attachment, and then you'd have the "gripping" hand...
If I have been able to see further than others, it is because I bought a pair of binoculars.
It's not actually a vacuum picker: the gripping comes mostly from the change between unpacked and tightly packed granules inside the bag, somewhat like a non-Newtonian fluid. The idea is that the bag forms around an edge or partial circumference and then tightens enough to pick it up. The original paper's abstract describes it better than the sciencemag article about it:
Individual fingers are replaced by a single mass of granular material that, when pressed onto a target object, flows around it and conforms to its shape. Upon application of a vacuum the granular material contracts and hardens quickly to pinch and hold the object without requiring sensory feedback. We find that volume changes of less than 0.5% suffice to grip objects reliably and hold them with forces exceeding many times their weight. We show that the operating principle is the ability of granular materials to transition between an unjammed, deformable state and a jammed state with solid-like rigidity.
There is sometimes an additional suction force assisting the gripper, but this is a suction-cup type action, not a vacuum pump action. The involved forces, from page two of the paper:
We find that this strength is due to three mechanisms, all controlled by jamming, that can contribute to the gripping process: geometric constraints from interlocking between gripper and object surfaces, static friction from normal stresses at contact, and an additional suction effect, if the gripper membrane can seal off a portion of the object’s surface.