This model features a 2-cylinder boxer engine with two valves per head operated via pushrods. The camshaft is located below the crankshaft and is driven by a spur gear.
The bearings used in this model were sourced from this user. However, you can also use real steel bearings. The crankshaft uses 6004 bearings, and the camshaft uses 608 bearings.
The cylinders and connecting rods are connected with M3 screws. The stand is attached to the housing with M4 screws. You can use countersunk screws with Phillips heads or external hex screws.
The engine can be driven with a crank on the clutch side or via the camshaft gear. When driven via the camshaft gear, the engine turns quickly, allowing a clear view of the valve lift operation.
I printed the housing in PLA-CF and highly recommend it. Supports are not necessary for the housing.
I printed the cylinders in PETG, but vertically. Supports are needed for this. I used PLA as a separation layer, which made it easy to separate the parts. Of course, you can also do it the other way around, with the cylinders in PLA and the separation layer between the supports in PETG, but then you need to disable cooling for the PETG to prevent warping and reduce the speed to a minimum of 20 mm/s. The cylinders and the crankshaft are the only parts that require supports, with the crankshaft using a PETG separation layer.
The crank consists of 4 parts: a lever that can be mounted on the clutch side and a handle that consists of 3 parts. The handle has a hollow shaft which is slid onto the handle and secured with a counter pin using an M2 screw.
It's crucial that the cylinders are mounted as shown in my pictures to ensure the valve timing is correct. The rocker arms are labeled with IN and OUT.
The exhaust system, pushrods, crankshaft, and camshaft need to be glued. I recommend deburring the glued parts if there's a noticeable edge between them.
Each valve consists of two parts, the head and the actual valve, which can be easily snapped together. The friction is sufficient to hold the two parts together. I wouldn't recommend gluing them in case the valve needs to be disassembled. The springs have a diameter of 10mm and a height of 15mm.
The assembly is quite intuitive, but here are the steps for clarity:
In essence, if you follow these steps, you should be rewarded with an engine that not only works but also looks like it knows what it's doing. Happy assembling!
I would be grateful for a donation (PayPal), even if it's just a few cents.