Andreas Delta

thingiverse

https://www.youtube.com/watch?v=W_6eSued2ZY <iframe width="640" height="360" src="https://www.youtube.com/embed/W_6eSued2ZY" title="YouTube video player" frameborder="0" allow="accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe> For Andreas, who is always ready to maiden my planes, I designed a Delta. He gave me the shape, as well as the profiles and dimensions for balsa laser cutting parts. I liked it so much that I also wanted to create a print version. However, initial estimates of the weight distribution showed that the required, far forward CG could not be achieved because of the high weight share in the rear. This was only possible with LW PLA. Thus, the weight can be reduced almost to half. To keep the weight as low as possible, I screwed a 22 gram lead disk on the front as ballast. But that was not necessary at all. We added 191 grams of ballast so that the plane would not glide so long when landing. This means the Delta can take a total weight of 1575 grams, the flight characteristics are still good. Because of stability, and also to shift the weight forward, I recommend printing the front part of the fuselage in PLA or PETG. But in any case the wingend, because it should hold the through going 8 mm carbon tube with a screw. You need several carbon tubes diameter 8mm, 4mm and 3mm as shown in the picture. The front and rear parts of servo segment, W1 W2 and all elevon parts must be glued together. Also the fuselage connector into fuselage 2 and fuselage 3 to fuselage 4. All other parts can be screwed so you can easily exchange parts if necessary. Update 21. January 2022 I changed the elevon concept to stabilize the elevons with a third bearing. Instead of 4 parts, the rudder now consists of 3 parts. The new W1 rear and the elevon inner have a cutout for the bearing. Update 11. January 2022 For those who prefer to launch the plane by hand I uploaded a launch handle with counter plate. launch handle AD.stl counter plate AD.stl M2x12 screws are needed to screw it on. For the middle screw, a screw hole of the fuselage connection is used. More informations https://www.rc-network.de/threads/andreas-delta.11822532/ https://www.rcgroups.com/forums/showthread.php?3754295-Andreas-Delta Specifications airfoil: NACA 0006 wing span: 1100 mm wing chord: 680/200 mm CoG: 460 mm from rear overall weight: 1384 g (with 2200mAh 3S battery) wing area: 48 dm² wing loading: 28,8 g/dm² motor: Surpass 3542 1450kV propeller: Aeronaut CAM Aeronaut Carbon Classic 9.5 x 6" static thrust: 1300 g (3S Lipo) battery: Turnigy 2200 mAh 3S motor camber: tilted -2° Print settings All fuselage parts and battery base: layer height =0,2mm, perimeters =3 fuselage 1: extrusion width 0.52 mm, 15 bottom layers, 3 top layers, no infill fuselage 2: extrusion width 0.45 mm, 2 bottom layer, 3 top layer, no infill fuselage 3: extrusion width 0.45 mm, 2 bottom layer, no top layer, no infill fuselage 4: extrusion width 0.45 mm, 2 bottom layer, no top layer, 45% infill connector fuselage: extrusion width 0.45 mm, 2 bottom layer, 4 top layer, no infill battery base: extrusion width 0.45 mm, 4 bottom layer, 4 top layer, 30% infill All acces panels/brackets: layer height 0.2 mm, spiral vase mode acces panel 1: extrusion width 0.5 mm acces panel 2 and 3: extrusion width 0.45 mm All acces panel brackets: extrusion width 0.5 mm hook insert: extrusion width 0.5 mm, layer height 0.25 mm, 1 perimeter, 2 bottom/top layer, no infill bushing M4: extrusion width 0.4 mm, layer height 0,15 mm, 2 perimeter, no bottom/top layer, no infill servo segments, W1, W2 layer height 0.25 mm, extrusion width 0.5 mm, 1 perimeter, 4 bottom/top layer, no infill wing end: layer height 0.2 mm, extrusion width 0.4 mm, 2 perimeter, 4 bottom/top layer, no infill (PLA) servo mount: layer height 0.25, extrusion width 0.5 mm, 3 perimeter, 2 bottom/top layer, 25% infill All elevon parts: layer height 0.25, extrusion width 0.5 mm, 1 perimeter, no infill elevon appendix: 4 top/bottom layer elevon inner: 8 bottom layer, no top layer, spiral vase mode elevon middle: no top/bottom layer, spiral vase mode elevon outer: 4 bottom layer, no top layer, spiral vase mode elevon joint inner/outer: no bottom/top layer, spiral vase mode fin: layer height 0.25 mm, extrusion width 0.45 mm, 5 bottom layer, spiral vase mode