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Human skin is around 10A, foot insole gel is around 30A, car tire is around 50A. Bars of urethane rubber can be found on McMaster-Carr for a good price, the softest material being ~40A but we can fabricate our own using silicon if need be. These Rubber bars can be cut with a water-jet but tolerancing might be iffy. 3D printing is also an option. 3D printing can be comparable in price or more expensive, whilst giving unique challenged that take a lot of time to tune. this is not something I am particularly interested or knowledgeable about so if anyone has any words on the subject please feel free to comment.
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This looks like it is rubber dipped 3d printed plastic, very interesting concept from Binghamton University
Tool Torque
Tighten captive screw to secure drawer. Screw will be a 5/16”Allen (hex)head.
Assuming elbow rotates*
A 5/16" Allen key is used to drive a 3/8" socket head screw. A 3/8" UNF socket head screw requires 26 ft lbs. (35.25 Nm). This is more torque than required for the forearm to hold a 5kg at 90° (including wrist weight) extended 25 cm out accelerating upwards at 1G.
this is worst case scenario below.
< crude calculations
Gripper torque
https://www.redwoodplastics.com/wp-content/uploads/2019/03/Urethane-2019.pdf
This is very encouraging, but for the sake of calculation we will assume a coefficient of friction, between the contact pads and what we are gripping as 0.65, as sources very. It will also be assumed we have a bad grip on the object (IE without friction the part would slip out, not cupped)
Mechanical geometry
This pertains to the 2 finger end effectors.
This is what I define as the path the jaws take during the open close cycle. There are several different types used in competition. Each with subtle advantages and disadvantages relating to the effectiveness, ease of design, cost of design and number of parts.
some aditional notes can be found here: https://en.wikipedia.org/wiki/Four-bar_linkage
Linkage Type | Image | Notes | Jaw Parallelism |
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Geared Parollelogram linkage | This is what we have (instead of gears it is leadscrew) note the outward extension of the tips vary during the stroke | Jaws Stay Parallel | |
Central Piston | This could be a lead screw or other Nice because it is symmetrical Also nice because it is gearless This could be mixed with the parallelogram | Positive angular separation at open | |
Linear Slide | No outward extension during stroke May increase the cost due to the need of linear slides | Jaws Stay Parallel |
More possible actuator types
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