I wish! I want me one of these:
@Plargen No, but that could be useful otherwise though!
I wish! I want me one of these:
@Plargen No, but that could be useful otherwise though!
So the single block of Ali plan was a no go, far too heavy.
So I had a plan to create 2 x 20mm thick braces separated by 4 x M10 bolts holding a 20mm Silver Steel shaft.
We're concerned that there will be too much flex and potential twist. Thoughts?
Screen Shot 2013-07-04 at 22.56.02.png
As long as you have good bearings there should be little twisting force between the two 'layers'. I imagine it should work as the main force acting on it is a sideways force from an impact. As I see it if you tried to push the shaft to one side it would put one of te bolts under tension, another under compression- the one under tension should be strong enough so should stop it be bending.
But obviously all this is just thinking out loud- there is no maths behind what I'm saying!
Alternative link positions on a FBS?
Other than out of the central stationary column? Ideally want it somewhere else to save weakening the shaft.
Ideas?
Put a hole in the shell, and when the bot stops spinning then you could reach the link through that????
Too dangerous I would fear.
That is totally against the concept of a safety link. You have to be able to get at the link even if the machine is out of control. If the weapon is spinning at all, that would make it impossible.
As for a solution, the only truly safe solution is the stationary central column if you are going for a design similar to LS4. I have seen links with long cable ties attached to them that stick out on the side but they can get cut or could be pulled out mid-fight.
Ok, I didn't know. Sorry peoples
Bit of a crazy solution but maybe you could take your steel shaft, cut it in half along the length (leaving two semicircular sections) then stick/bolt the two halfs back together with a thin layer of insulating plastic between them. The top of the axle is open at the top, you then have a circular magnet which you drop on the top of the shaft and acts as a conductor so connects the 2 halfs of the shaft. Inside the robot you have two "brushes" like on a brushed motor pressing against either side if the shaft, this acts as your link. To activate you put the magnet in place to deactivate you just pull it off.
That is crazy!
Anyone else have issues getting 3/8UNF studding connectors to wind onto their drill shafts? I get about 2 turns and then it locks.
Seems a waste to buy a 3/8UNF tap just to sort out 2 studding connectors!
Bookmarks