Friday 13 October 2017

The electric apple mill

Last year, some readers may remember (could they ever forget?) that I had acquired a fruit mill and press from a friend’s parents, in a nearby village. They had been in a barn that was flooded badly in May 2016, when the region was badly hit with torrential rain. I cleaned up and restored what needed restoring, and put them to good use making cider.

But there was another mill in the barn, that was squatter-looking, had no hand crank, so needed a motor. I left it there. But earlier this year, they contacted me to say they had to empty the barn, as it was now sold, so anything that was still in it would be dumped. Needless to say, I went back and bought it for the princely sum of 20 Euro.


The remains of he floodwaters



It's red!

After an initial clean (my son got a chance to play with the pressure washer), to get the crusted mud off it, I left it over spring and summer, and only recently decided to pick up this little project, between building tasks. An added impetus to this, was the fact a neighbour, and fellow Stammtisch member, gave me an old electric motor, complete with cable and switches that he kindly mounted on a board for me (thanks RĂ¼diger!).

Although basically cleaned, the gears and axles were still pretty gummed up with a combination of crusted old oil, and silt from the flooding. It was time to take the whole thing apart and clean the individual pieces. 

No more mud, but very creaky.

Crusted old oil covered most of the moving parts.



The wooden stand got another clean with the pressure washer, and then some TLC with Murphy’s Oil Soap. The original colours seemed brighter, and with the layers of grime removed, any patches showing natural wood looked warmer.




I tried several methods to clean the gunk off the gears. I’d read hot citric acid was good, but it was not as effective as brake cleaner in getting the really bet-on crud off the parts.





No more old oil residue.
Lastly, any part that would be touching the fruit got a fresh coat of Kelterlack, the traditional resin-based paint for exactly that purpose. There were remains in the hopper and the milling parts and chute, so they got a light sanding and a new coat.


Reassembling was a piece of cake, and it was satisfying that everything could move with ease after the deep clean. Every moving part has a lubrication point, ranging from a simple hole or hollow on the smaller parts, through a mini cup with spring-loaded lid for one of the gear wheels, right through to oil baths, with a ring around the main axles, that would draw oil up and keep the axles lubed as they rotated. All very simple, all very effective.

The only thing missing was how to get it all moving. I had been asking around about motors the past year, and in the past couple of months, was given two. One from a chap who got a new circular saw, so didn’t need his anymore, and another ancient one from a neighbour, which I deemed more suitable, as it ran slower, and with a smaller drive wheel. RĂ¼diger, the neighbour, also happens to be an electrician (retired last month), so he mounted everything on a board, with switches and cables, and delivered it. In return, I brought 50 litres of cider to his retirement party, so I think we were both happy!




He also gave me some old leather drive belts, and a loan of a tool for fitting end a kind of catch at the end, such that a pin could be used to hold them together, and make a loop. No idea what they are called! But the photos should clarify. 





The belts were pretty dry and not so flexible, so they got a wash and an oil, so they were a bit more supple. They were ideal for the main drive belt, which needed 60mm, but another belt was needed to link the main drive axle to the axle the powers the pushing mechanism. This needed to be max 40mm, but due to the nature of the 60mm belts, and the fact they were shorter lengths stitched together, I couldn’t simply cut a centimetre off each side. I ended up buying a 2m length of 35mm belt, which cost 30 Euro, but it was worth it. I cut to length, fitted the clamps, and cut a section of a nail to use as a min to join the ends. It fitted perfectly.



First tests showed that it all worked very well, but to my mind, too fast. Normally, these would probably have been powered via a transmission, a bank of various-sized wheels on an axle, itself powered by a motor, so you could choose what wheel to attach the mill to, to get the right speed. We actually have one in the barn, fixed to the wall, but it is rusted fast. 



The alternative was to swap out the drive wheel on the mill for a larger one, and this is what we did. Good friend and brew-buddy Frank had one lying around, and his son milled a collar, to adapt it to the slightly smaller axle of the mill, so it fit like a glove. We gave it a test last night, and while it is definitely slower, I can't help thinking that the pushing mechanism is still a little too fast. We've a plan B, but we'll test the mill as it is first. Stand by for some video footage in the next week or two!




Friday 6 October 2017

Insulating the last cellar

We moved into the house in February 2015, after about four years of heavy renovation work, but due to exhaustion, there was one cellar left uninsulated: the one under our living room. Our first winter in the house was relatively mild, so it wasn't so bad. But the winter of 2016/17 was bitterly cold, and we really noticed that the floor of the living room was much colder, and the cold crept in. Unfortunately, due to shoulder problems at the time, I could in no way do any overhead work, so we sealed up the cellar door to reduce the ingress of cold air, and lived with it.


This year, with the arm again movable, I decided enough was enough, and it needed to be done before the really cold weather comes again. After considering several options, from Rockwool to Styrofoam, I decided on a method that had relatively minimal effort, but also probably the most effective, using cellulose-based insulation, like our roof.

To do this effectively, the cellar ceiling had to be as airtight from underneath as possible, essentially creating a big bag, stuck to the walls, that would be later filled with isofloc. To start this, I plastered the top 15cm of the walls to ensure a smooth surface around the perimeter. An apron of breathable damp-proof membrane was glued around the perimeter, using a special sealant. This would form the sides of the "bag".

Once dried, a framework of 4x6cm timbers was then suspended from the oak beams, to a depth of about 12cm below the ceiling. This time, I used Justierschrauben (adjustment screws), which negated the need for planing blocks of wood to precise thicknesses to achieve the desired height, which is what I did in the other cellar, and under most of the floors, so I was glad to avoid that again!


The membrane was then attached to this frame, and the apron folded up and all seams taped closed, to form a single, sealed unit, and laths screwed to the initial framework, to provide support and something to attach the final ceiling finish to (not yet decided).




This alone already made a difference in the living room, as air couldn't move so easily up into the living room.

I'd taken a half day today, after agreeing with a local carpenter earlier this week that he'd come at one o'clock with a machine to blow the cellulose insulation into the void. He turned up at 1:30 to say he didn't have enough material, and asked if  we could do it in a week. This has pissed me off, as he said he had enough material, clearly didn't check, and could have gotten it even today from a nearby supplier. We reckon he's busy on another site, but I would prefer honesty. So much for German efficiency, again! I guess I got a long lunch break out of it.

Maybe next year we'll do something more with this room. The plan is to move my beer and cider cellar into here, as I need more room for barrels and fermenters, and maybe a table for when friends come around.

Anyway, let's see how it looks in a week's time.