Since this is a drag type wind turbine, its tip speed is going to be less than 1. If I assume it might reach 0.9, then at 40mph wind speed, I calculate this thing is going to be trying to reach 1,500 rpm due to its small diameter! That'll work nicely for the direct drive generator I've got planned but the centrifugal force and balancing is going to give me issues.
So I spent yesterday designing, iterating and 3D printing a furling mechanism :-)
I had a look online, but similar ones either didn't furl, or they tried to move the blades further in or out where they have to fight against wind pressure to furl and that seems like a bad idea.
I've come up with the following system where the wind turbine furls by opening out around the central shaft, spilling wind safely through the centre of the turbine. Hopefully the following pics help (ignore the routed groove, its not used anymore)
The base and top discs are mirror images of each other, and the moving inner edge of the gutter has an independent spring (currently borrowed my wifes hair ties, don't laugh!) that are independently tensioned on the outer edge of the blade so that I can balance the spring force so they both open together.
I mounted the turbine to a variable speed drill to test and it starts opening around 1000rpm.
Video of the furling system on youtube here:
https://youtu.be/o0Oly06qnv4Not the clearest thing to see while its spinning but you can see sky through the centre of the turbine at the start of the video as its slightly furled from a wind gust. As it spins down, the gap closes and the turbine turns back into a more efficient shape again.
I can put the CAD files up somewhere if anyone else is interested. I know its a lot smaller than some of the projects I've seen on this forum!
