Installing the flaperon on the glider's wing.
https://en.wikipedia.org/wiki/Flaperon
It's a full-span flaperon, in two halves. Each half is almost 12 feet long.
Each flaperon half has 8 hinges made of a pintle/gudgeon pair. (1st photo)
https://en.wikipedia.org/wiki/Pintle
https://en.wikipedia.org/wiki/Gudgeon
When installing the outer flaperon half, I also have to engage two sets of pin/sockets that ensure the two halves move as one unit. (2nd photo) (Each flaperon half is driven by its own flight control linkage, not shown here.)
One of the 8 hinges on each flaperon half also serves as a retainer that handles side loads. (3rd and 4th photos.)
The flaperon halves are intentionally not very stiff longitudinally so that they flex with the wing, but they are much stiffer radially to resist deformation because they are driven at only one point by the flight control linkage. This feature is fairly easy to achieve in composite fabrication because you can orient the fabric fibers in certain directions. In this case we used Kevlar, not carbon or fiberglass.)
#AvGeek #Aviation #ElectricAircraft #Homebuilt #Glider #DIY #EAA #Wing #Flaperon #Kevlar