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pic: FRC488 Lift Mechanism Deployed
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Re: pic: FRC488 Lift Mechanism Deployed
Brilliant... I know where I want to park when we get to Portland!
Jason |
Re: pic: FRC488 Lift Mechanism Deployed
I call this parking lot in SVR.
Looks pretty sweet. -Guy |
Re: pic: FRC488 Lift Mechanism Deployed
One Word
DANG! (in a good sense) |
Re: pic: FRC488 Lift Mechanism Deployed
Great looking cad model! Out of curiosity, is the material that the platform is made out of going to be transparent? I can imagine that it would be difficult to see what was going on on the field with those things folded up.
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Re: pic: FRC488 Lift Mechanism Deployed
Why didn't I think of that!!
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Re: pic: FRC488 Lift Mechanism Deployed
We had this idea earlier on but it was scrapped because we decided not to lift.
It's a very nice, easy, and safe way to lift. I like it. |
Re: pic: FRC488 Lift Mechanism Deployed
we also tought of doing it at one time, I even drew it up in inventor, but since then, our team has decided on a lighter design
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Re: pic: FRC488 Lift Mechanism Deployed
114 looks forward to working with you guys at both PNW and SVR! Looks very good! How long does it take to lift up a 120 pound robot to full height? Also, are there any dimensions on the total size of this platform? I'm very curious as to how easy it will be to drive onto this platform.
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Re: pic: FRC488 Lift Mechanism Deployed
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The overall dimensions of the flat part of the platform are about 37 x 45". When collapsed, the top is 2.25" from the floor. There will be ramps leading up to the flat portion that ought to be about 9" long. |
Re: pic: FRC488 Lift Mechanism Deployed
Madison,
The lift looks really nice. We have been mocking up a couple of different similar designs using gas shocks and I have a couple of questions. First, in your design what keeps the two tall pieces of channel from just bending over? Second, (this is more of a rules interpretation question) are you placing any material between the bottom two pieces of metal (channel? Box tube?) and the carpet? I ask only because we are wondering if we need to so ast to not violate <R34> (the no metal touching carpet rule). I guess it depends on what is meant by a "traction device". Quote:
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Re: pic: FRC488 Lift Mechanism Deployed
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The linkages themselves buckled under the load in our first iteration. This was redesigned to accomodate that experience -- if something similar happens to the vertical pieces, we'll just make it stronger. :) I'm pretty confident that the bottom of the lift will not be considered a traction surface, but I've been trying to also plan for nearly all eventualities and we hope to have something available to us to coat the bottom should the inspectors require it. |
Re: pic: FRC488 Lift Mechanism Deployed
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Re: pic: FRC488 Lift Mechanism Deployed
our design for lifting is fairly similar to that, but I must say your picture is better than ours lol very nice! Hope to see you guys at atlanta! *crosses fingers*
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Re: pic: FRC488 Lift Mechanism Deployed
Looks great, as well as the rest of the robot, but I have a few questions - not sure if I completely understood your system.
Are the gas shocks preloaded, and then released to lift (launch? ;)) another robot? If that's the case, how hard is it to load them? Lifting a 150 pound robot 14" up in two seconds sure requires a lot of force. Also, does the entire system pivot around that huge C-bracket? Anyway, your robot sure looks great. It seems like we are using the same material on our ramps (does it, by any chance, weigh 1,5 kg per square meter? Incredibly strong stuff! ;) ) |
Re: pic: FRC488 Lift Mechanism Deployed
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Re: pic: FRC488 Lift Mechanism Deployed
Great system, nice model.
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Re: pic: FRC488 Lift Mechanism Deployed
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We're using 2 125 lbf. gas springs, so it take 250 lbf. to lower the platform. We are considering switching to 100 lbf. or 75 lbf. springs to make it easier to reset the system -- but that switch is predicated upon their ability to lift a robot. They exert pretty near constant force, so it doesn't take more than a few seconds for them to fully extend. The lifts do rotate around the large 'C-bracket'. The platform is made from 16 mm Polygal (www.polygal.com) and weighs .55 lbs./sq. in. -- about 11 pounds for both sides. Quote:
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