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Um, it runs on Z-Scale track.
Yikes, that's light! Even at 15g, that's only 3-3/4g per wheel. And when I was experimenting with my tender and you were doing weight experiments, I seem to recall about 8g per wheel being the "reliability" point.Of course, with wipers directly to the wheels, that improves things immensely because you don't have to worry about conductivity through a rotating axle in a bearing.Are you still thinking of making this in a variation with 33" wheels and 5'6" axle spacing for an ordinary steam loco tender truck? The potential to use this as a tender drive in steam locos is tremendous.
Can this design be made to a true narrow gauge (.225")? I would love to convert a CC RGS Goose. Jason
So, I wonder: how does it do on Micro Trains track?Mark in Oregon
I'd be so interested in this to make a Conrail 0
Very interesting and very quiet . How fast or slow will it pass over a standard Kato turnout , and an Atlas Code 55 turnout ?
Are there any other turnouts that you know of that use a plastic frog like the Atlas code 80's?
Peco insulfrog.Then there were either Model Power or Life-Like ones which looked very similar to the Atlas one. But those are probably out of production. I think Bachmann turnouts have plastic frogs. Then there are some European brands with plastic frogs (don't recall which ones specifically).
Actually I had suggested 5 grams as a minimum and up to 8 grams for really reliable. That was based on my previous testing that was using commercial wheels, plated brass with steel axles. I hadn't made my own wheels or gears yet at that time, focusing primarily on the drive and motors. This is the first I've run the final drive parts of my own manufacture, the one piece nickel silver wheel/ axle and also my own gears. I'm thinking that the nickel silver wheels must make more difference than I would have guessed. I don't know what else to attribute it to. And while that runs well as those videos suggest, at that weight it can stall when running at really low speeds. Not often but it can and also not completely predictable when or where as it goes around. It might go for hours but might stall in one hour. That's why I usually weight it to 15 grams if I'm leaving it unattended, just getting running hours. That just runs and runs, no quit. I was thinking I was going to treat 20 grams as my bare minimum while striving for 25 to 30 based on my extensive early testing but as I get more testing hours in and over a few configurations I may amend that a little. I just don't know yet but I AM pleased with these new findings. Unexpected bonus where I wasn't even looking for it. Oh, and those new wheels and gears are performing EXCELLENT! Although, I WAS expecting THAT. ......
This is very interesting indeed. My tender wheels are one-piece, turned from a piece of nickel silver rod, so the wheel and half-axles are one piece. But I don't have wipers. I am still relying on the axle points rotating in a beryllium copper block, which is not going to be as dead reliable as a springy wiper maintaining positive contact on the wheel at all times.As "unpleasant" as we find wheel wipers, there is no denying that when they aren't dirty, they carry current from the rail to the motor more reliably than anything else.
@narrowminded I am flabberghasted. That runs fantastic. Been meaning to speak with you soon!
Are your blocks allowing vertical float, even just a little? That would be a huge difference on irregular track, even encountering the most minor difference. ......
Well... sort of. The axles ride directly in the truck sideframes, so there are no floating finger assemblies like on a Kato truck.However, the truck sideframes are joined together over a plastic center beam with screws and none of that is very rigid, so the 4corners of the truck can flex. It's not as free-floating as a Kato truck, to be sure, but with the extra weight I've got in there, I thinkit is enough to keep all 4 wheels down even over uneven track. I have not, of course, gone through months of experimental trialsto prove this, the way you have.