Yeah, I did try some manual damping through different RPM ranges and I tried a variety of different angles to see how things interacted. I did not find any gain mechanisms in this arrangement. The energy transfers were interesting to study, especially as storage systems and time variant impulse actions. Overall, the total field interactions did net to conservative even though some of it was split and rejoined.
ok 1 more. the stator mags. at least in theory are eventually superfluous. the real trick seems to lye in the mkjd and the agw mag... those fields are the key and NEED to be absolutely percise...
Thank you for the complements, but I can only take a very small portion of the credit. Madprof is the craftsman behind the impressive replica and Alsetalokin was more than kind in his assistance in procuring some of the needed parts and measurements. Even so, there is still a missing 'something' that when found will solve the puzzle.
See Fizzx[dot]com for more posts from replicators.
All measurements are exact replicas of the original. The LRF's are custom and the hub attachment is different, but the rotor and stators are identical and the spindle is identical make and model. The rotor magnets are diffferent, but the stator magnets are same manufacturer and model. I put this up to demonstrate the RPM dependent resonance relative to the rotor field patterns.
looking around i have to say this is one of the closest and most impressive i have seen so far.
it would seem the resonance your talking about builds quite well right up until the magnet falls off or hits its perch. which of course throws its timing off. also i noticed you changed the magnets from horizontal to vertical.
You don't give it up. very good, keep pushing the enevelope of replication. There is no other way.
Have you checked out with user/tinselkoala? He seems to be the original man of the OCMPMM
Maybe still, something essential is missing in this design. What would that be? I found in one of my own experiments that a ringmagnet placed upright towards the center of the rotor improves the stability of the magnet disc. It phases the flux and could contribute to a more stable, or conserved even rhythm.
this looks a lot like the seal effect generator
Segnet37451172 10 months ago
the magnet all have slight varancies in Gauss, you need to match and balance the system... the feild streng change during rmp changes
eloid777 1 year ago
try to dampen the vibration to control frequency, maybe a certain frequency will do the trick.
onthecuttingedge2005 2 years ago
Yeah, I did try some manual damping through different RPM ranges and I tried a variety of different angles to see how things interacted. I did not find any gain mechanisms in this arrangement. The energy transfers were interesting to study, especially as storage systems and time variant impulse actions. Overall, the total field interactions did net to conservative even though some of it was split and rejoined.
Cheers
AdminOnDuty 2 years ago
ok 1 more. the stator mags. at least in theory are eventually superfluous. the real trick seems to lye in the mkjd and the agw mag... those fields are the key and NEED to be absolutely percise...
lucky13XOC 2 years ago
Thank you for the complements, but I can only take a very small portion of the credit. Madprof is the craftsman behind the impressive replica and Alsetalokin was more than kind in his assistance in procuring some of the needed parts and measurements. Even so, there is still a missing 'something' that when found will solve the puzzle.
See Fizzx[dot]com for more posts from replicators.
Cheers.
AdminOnDuty 2 years ago
Evidence indicates the original did contain some type of motorvator, possibly a flatwound coil motor
AdminOnDuty 2 years ago
also it seams the magno-kinetic jetison dampers are off center clockwise...
lucky13XOC 2 years ago
All measurements are exact replicas of the original. The LRF's are custom and the hub attachment is different, but the rotor and stators are identical and the spindle is identical make and model. The rotor magnets are diffferent, but the stator magnets are same manufacturer and model. I put this up to demonstrate the RPM dependent resonance relative to the rotor field patterns.
AdminOnDuty 2 years ago
where did you get the info and can i get a copy?
btw this is me just going off what i know and have seen in the original (albeit crappy) video.
can we chat?? on a msgr?
lucky13XOC 2 years ago
Comment removed
lucky13XOC 2 years ago
its actually judson but thats not even a word. its a name of a writer of dime store novels. ???
lucky13XOC 2 years ago
Actually Judson is the name of a school Alsetalokin allegedly attended in Texas.
AdminOnDuty 2 years ago
looking around i have to say this is one of the closest and most impressive i have seen so far.
it would seem the resonance your talking about builds quite well right up until the magnet falls off or hits its perch. which of course throws its timing off. also i noticed you changed the magnets from horizontal to vertical.
lucky13XOC 2 years ago
You don't give it up. very good, keep pushing the enevelope of replication. There is no other way.
Have you checked out with user/tinselkoala? He seems to be the original man of the OCMPMM
Maybe still, something essential is missing in this design. What would that be? I found in one of my own experiments that a ringmagnet placed upright towards the center of the rotor improves the stability of the magnet disc. It phases the flux and could contribute to a more stable, or conserved even rhythm.
anandaadhar 3 years ago