Morning all.
With Storm Darragh raging all weekend I decided the safest place to be was the workshop.
I've been studying the plans and chose to tackle the displacer cylinder first, mainly because it involved silver soldering which I have never done before.
It started with some 16.5mm OD seamless steel tube which was turned at each end to square up and to get the correct length. This then had a piece of 1mm steel plate silver soldered to one end.
After turning off the excess material on the lathe I then made the flange for the other end. A piece of 2.5mm steel plate was squared up and drilled for the holes for mounting to the block later on. I also dropped in a center hole. The piece was then mounted in the lathe and the centre hole employed to get in concentric. Once done the hole was drilled to 14 mm, then a boring bar was used to open up the hole to just over 16.5mm. It needed to be slightly larger than the tube to allow somewhere for the solder to flow.To ensure it was the right size I bought a set of snap gauges (OK, it was just a good excuse to buy some). This was then soldered on and after some clean up the part was complete. You can see in the last pic the lighter coloured ring, which is where the solder went.
I was really pleased with the silver soldering, it's not the prettiest, but as a first attempt went well, and more importantly the joints are strong and air tight.
With the cylinder out of the way I went on to make the displacer. This is a relativity simple part, just a length of 13.5mm OD ali tube. Each end was rebated and a plug of aluminium pressed in and turned down flush. Because this part will be at the hot side of the engine the plugs couldn't be chemically fixed with glue/threadlock, so they had to be made to an interference fit (a couple of thousandths of a mm larger than the inner diameter of the tube) and pressed in with my vice. The longer plug has a hole drilled in and tapped for M4.
Next up was the displacer rod, a length of 5mm drill rod, threaded one end M4 to screw into the displacer, and a 1.2mm hole and 2mm slot in the other end to eventually connect to the crank via a yoke. Another fairly simple part, though did involve using the murder saw (slitting saw) which frankly terrifies me every time I use it.
Last part to be made was a pin for connecting the displacer rod to it's yoke. I actually made two in the same set up as another will be needed later down the line. These were tricky as they are only 1.2mm diameter, and were turned down from a 3mm stainless steel pin.
And that's the displacer assemblies complete. The tube is the part that is heated externally, causing the displacer to be pushed by the expanding hot air. However this is not a piston, the displacer itself is slightly smaller than the internal bore of the tube, which allows the hot air to pass by it and on through the block to the cold side of the engine. You can see the gap in the last pic.
