toys made with handheld fans

This is a toy car made from a hand-held electric fan



The bottle top is attached to the spinner with sticky fixers, will only work on a smooth floor. Link to movie
This is a toy boat made along similar lines



You need two drinking straws, a thin one to make the prop shaft and a wider one for the bearing. Make the propellor by sticking two bits of plastic together at an angle with araldite. Don't make it too big. Link to movie



This is a more elaborate car





This is a fan taped to an LED wall light



It is suspended from a wire bearing so that when the fan is switched on the light spins round & round. It can be hung from a light fitting.
Link to movie of one going round inside a big lampshade



This is an electric fan driving a cardboard flywheel by a connecting rod



I had to fiddle with it for ages to get it to start turning, but once it started it was surprisingly smooth and you can twist the conrod through a right angle and it will go on working; you can also make it work tipping the flywheel towards the fan by as much as a right angle.
Link to movie the movie makes the fan & the flywheel appear to turn much slower than they really do.

It turns the flywheel either forwards or backwards depending on which way it starts.
This is a detail of the driving end



This is a detail of the driven end



A more conventional way of getting a turning force to go round a corner is to use a universal joint.



This is a universal joint made from four sellotape hinges, each one at a right-angle to the last. Notice it is constrained by two bits of straw joined by a paperclip; one end of the constraining structure has been sellotaped to a lump of wood.
Movie
The straw can be rotated by taping it to the hub of a hand-held fan



Here I am holding one end of the constraining structure; in this movie I twiddle the constraint so that the rotating straw points in different directions.
In this slightly modified version I have added an extra drinking-straw sleeve which I am holding



This allows the constraining structure to spin freely, which it does of its own accord.
When turning forces go round corners like this they behave in quite a mysterious way. Any braking force exerted on the central spinning drinking straws will tend to make the universal joint lock up, this causes it to start behaving like a solid right-angled structure which drives the constraining structure round & round. In the same way any braking torque applied to the constraining structure directs more of the fan's power to the central spinning shaft. These braking forces can be applied aerodynamically



The propellor acts as a brake on the central shaft and the large vane acts as a brake on the constraining structure. By changing the size of the large vane it is possible to make the braking forces roughly equal. Because the fan is now suspended from a bit of string the whole thing is free to rotate. Because the direction of the propellor is slowly rotating around the axis of the fan the mobile keeps changing direction.
If the fan is held steady rather than allowing it to swing round



the way the fan's rotation is divided into two separate elements can be more clearly seen.
Another movie
Link to much simpler universal joint toy
Another universal joint toy




Link to cable car made with electric fan






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my email is davidvwilliamson@hotmail.com