Thanks! The ratchet is made out of a small laser-cut delrin piece which is zip tied to a screw acting as a pivot. Then, we use a small piece of latex tubing to pull it down.
Sorry, the string for the winch isn't very visible in the video. It goes from the high strength axle to a pulley at the bottom of the arm then runs straight up to our top hooks. Hope that explains our string routing!
I love the part where he showed us it climbing 😁
he said it was just a concept and wanted to show off the principles
@@zoeller07 just came for the hang, didn’t actually watch the whole thing
@@skootle3871 💀
brooo i spent hours trying to figure out passive extension and then i found your temporary ratchet. insane design
Thanks! The ratchet is made out of a small laser-cut delrin piece which is zip tied to a screw acting as a pivot. Then, we use a small piece of latex tubing to pull it down.
To those asking for a video of the hang sequence, please read the description.
How close is it to working properly if it isn’t? It is a very interesting looking design
@@iceberg_4o487It is getting scraped because of an up coming comp and it’s not consistent enough rn
my king greyson
is there a photo album of the bot ? great concept tho
Omg you’re so cool
GOONS!
Where does the pto attach to the tubing i cant see how you would link that
Sorry, the string for the winch isn't very visible in the video. It goes from the high strength axle to a pulley at the bottom of the arm then runs straight up to our top hooks. Hope that explains our string routing!
idk if I read it wrong, but I thought hang had to be on one of the four sides, like you can't touch two bars at once
there is no such rule.
where did you get this idea from lol
You probably incorrectly interpreted the can’t break more than 2 planes of the ladder at once