Clerget 9B rotary aero engine
cults3d
Scale model of a Clerget 9B rotary aircraft engine, as fitted to the Sopwith Camel during WW1. This model is based on a wonderfully detailed 1/4 scale design including every nut, bolt, and ball bearing from https://grabcad.com/library/clerget-9b-radial-engine-1. I've adapted this design for 3D printing. There's more detail in the model than can be printed with a 0.4mm nozzle. In particular, the cylinder fins didn't print well for me. The engine mount is my interpretation of what a Sopwith Camel engine mount appears to be, with a frame below to support it. I've made some improvements based on my experience building my model. One detail is that the wiring for the electric motor can be brought out through the brush-holders on the rear of the central support, where the ignition wires of the real motor attach. There's also an optional "rear support" you can add to the rear of the mount. The engine's scale is 0.117 (between 1/8 and 1/9)... this arbitrary number is based on a Sopwith Camel with a 1m wingspan. Scaling up or down my STLs in a slicer would only work to a limited amount. Scaling up would result in the motor shaft being too short to go right through the prop. Scaling down would require drilling out the shaft hole back to 3mm. A few of the parts (propellor, pushrods, engine mount, base) are designed for dual extruder printing. Merging all the subparts should allow printing on a single extruder. I've glued all the parts together with 5-minute epoxy. Probably cyanoacrylate would be just as good, but epoxy does have a space-filling capability that CA doesn't. One slight imperfection is that all the valves and pushrods are in the same position. I'll leave it to you to remix the model so all the valves are in the correct positions. The print of the base stopped midway through with blue filament; I have other things to do, so I'm not redoing that part. Inside the model is an N20 gearmotor with a 55mm M3 shaft. This motor spins at about 300RPM when running off a 9V battery. The motor slides sideways into the mount (see the yellow test print of the mount) which is then screwed to the engine mount with 2.5mm self-tapping screws. Glue an M3 nut into the rear of the front crankshaft half, and into the recess in the propellor front flange. Glue short pieces of filament into the alignment holes in one of the crankshaft halves, and trim back to about 1mm proud of the surface. Glue the halves together with slow-setting epoxy) and glue in the spark plugs with 5-minute epoxy. These are designed to help align the cylinder halves. Next, glue on induction tubes, then inlet pushrods, then exhaust pushrods. Finally, glue flanges to propellor... NB: rear side of propellor is straight, front side is curved.
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