Hi,
Yes, some of the Maxxon DC motors seem to be notoriously fragile in that department.
IMHO the easiest way is to have a heavy motor pod that you can move forwards and backwards.
Sometimes a sliding rail with a locking nut is used for this.
Cheers, 😉
Yes, some of the Maxxon DC motors seem to be notoriously fragile in that department.
IMHO the easiest way is to have a heavy motor pod that you can move forwards and backwards.
Sometimes a sliding rail with a locking nut is used for this.
Cheers, 😉
Rubber O' ring belt a clear winner?
Thanks,
Tape drive: I have tested the 1/4 " reel to reel, if this is what you mean, and failed to grasp (slips all the way...). Torque needed to rotate the flywheel is extremely high (the 10mm OD motor capstan 'sees' a 45mm. OD flywheel drive!). In fact I had been using tape with my previous configuration - and there are some sonic advantages - but now this is a complete different story.
BTW, if you noticed within the paper, I am referring to that and in fact the first configuration of the flywheel drives was machined for tape to be used, but failed - see paper (under 'Flywheel construction')
Belt tensioning: I am referring also to that in the paper (under 'Energy absorption - drainage')...
I just wondered, if any of you can suggest any tensioning figure regarding this material (I am using 10-13% stretch). The problem is that the 3 things are far apart one from the other and there is some violin string effect. On the other hand, I wouldn't go too far with stretching, to keep the rubber cord from not permanently deformed...
Also if anybody knows any real strong glue for cord ends connection... and how about using it because at the connection area, due to the glue, the diameter gets a little larger and I don't like that ... and I cannot manage my fingers to have the 2 ends glued and perfectly aligned at the same time...
Regards
Thanks,
Tape drive: I have tested the 1/4 " reel to reel, if this is what you mean, and failed to grasp (slips all the way...). Torque needed to rotate the flywheel is extremely high (the 10mm OD motor capstan 'sees' a 45mm. OD flywheel drive!). In fact I had been using tape with my previous configuration - and there are some sonic advantages - but now this is a complete different story.
BTW, if you noticed within the paper, I am referring to that and in fact the first configuration of the flywheel drives was machined for tape to be used, but failed - see paper (under 'Flywheel construction')
Belt tensioning: I am referring also to that in the paper (under 'Energy absorption - drainage')...
- For motor to f-w belt tensioning, I use the swivel of the tripod used to be placed on (the motor spindle is off-center to the motor heavy housing, so by rotating the tripod base, the motor capstan moves away or close to the f-w.
For f-w to platter belt tensioning (and alignment), body + rot. bell of the flywheel is 27.5 Kg heavy, so I can slightly move it on its shelve, as the previous gentleman suggested.
I just wondered, if any of you can suggest any tensioning figure regarding this material (I am using 10-13% stretch). The problem is that the 3 things are far apart one from the other and there is some violin string effect. On the other hand, I wouldn't go too far with stretching, to keep the rubber cord from not permanently deformed...
Also if anybody knows any real strong glue for cord ends connection... and how about using it because at the connection area, due to the glue, the diameter gets a little larger and I don't like that ... and I cannot manage my fingers to have the 2 ends glued and perfectly aligned at the same time...
Regards
Hi,
Well, well....guess I did something right after all....
The technical reasonigns are in the archive here....
Way to go and merry X-mass,
If you need to pick my brain, do a google on Nothingham Analogue, we're engineering soulmates...
Cheers,😉
Well, well....guess I did something right after all....
The technical reasonigns are in the archive here....
Way to go and merry X-mass,
If you need to pick my brain, do a google on Nothingham Analogue, we're engineering soulmates...
Cheers,😉
Re: Rubber O' ring belt a clear winner?
I suppose you may find a manufacturer to make you silicone rubber O-ring of desired dimentions in Greece. I ordered once a ring seal of 350 mm diameter and rather complicated crossection for one project (I'm in jet-engine engineering) from the local Israel manufacturer not for huge amount of money. You pay 95% for casting form and than you can order 20-50 pieces within same sum.
skaloumbakas said:
I suppose you may find a manufacturer to make you silicone rubber O-ring of desired dimentions in Greece. I ordered once a ring seal of 350 mm diameter and rather complicated crossection for one project (I'm in jet-engine engineering) from the local Israel manufacturer not for huge amount of money. You pay 95% for casting form and than you can order 20-50 pieces within same sum.
Some types of rubber can be melted in a microwave. Try a bit from one of your belts and if it works use the liquid to bond the two ends. After trimming you end up with a seamless connection.
recent findings about 'belts'...
Hi,
Here are the latest I am concluding, regarding driving threads appropriate for this flywheel project...
Cheers
Christos
Hi,
Here are the latest I am concluding, regarding driving threads appropriate for this flywheel project...
Cheers
Christos
Very surprised indeed...
Hi,
I am very surprised, I found in a thread (http://www.diyaudio.com/forums/showthread.php?s=&threadid=4578), dice45 to write about the Verdier platter:
As I mention in my flywheel project report (magnetic field section), I certainly didn't have any of this experience with my aas gabriel platter and this also holds true for my magnetically levitated flywheel, as well as with the magnetically levitated platter of TL Acoustics turntable design.
They all rotate stable, (without even the slightest vertical vibration!!!!) and dead quietly, exhibiting no rumble what so ever, far below any other bearing conception available and CERTAINLY NO COGGING!!!
I am very surprised indeed!!!!
Hi,
I am very surprised, I found in a thread (http://www.diyaudio.com/forums/showthread.php?s=&threadid=4578), dice45 to write about the Verdier platter:
and in the second page of the same thread:
As I mention in my flywheel project report (magnetic field section), I certainly didn't have any of this experience with my aas gabriel platter and this also holds true for my magnetically levitated flywheel, as well as with the magnetically levitated platter of TL Acoustics turntable design.
They all rotate stable, (without even the slightest vertical vibration!!!!) and dead quietly, exhibiting no rumble what so ever, far below any other bearing conception available and CERTAINLY NO COGGING!!!
I am very surprised indeed!!!!
Hi,
Without axial bearing are the key words: too much magnetic lift.
Anyway, I think this applies to the models described way before actual production.
The "Platine Verdier" was part of a series of articles in the French audiomag "L'Audiophile" where the idea originally was to give sufficient lift of the platter so it floated without making contact with the bottom of the bearing.
Not such a good idea as it turned out...For the same reasons the mercury floated platter by an another frenchman was flawed BTW.
Cheers, 😉
Without axial bearing are the key words: too much magnetic lift.
Anyway, I think this applies to the models described way before actual production.
The "Platine Verdier" was part of a series of articles in the French audiomag "L'Audiophile" where the idea originally was to give sufficient lift of the platter so it floated without making contact with the bottom of the bearing.
Not such a good idea as it turned out...For the same reasons the mercury floated platter by an another frenchman was flawed BTW.
Cheers, 😉
NO axial Bearing ...
The ones I mentioned are also without axial bearings (float 3mm above the chassis) and there are not such problems... They are completely stable!
Christos
The ones I mentioned are also without axial bearings (float 3mm above the chassis) and there are not such problems... They are completely stable!
Christos
Hello all,
Height variations on a magnetic suspended platter are due to false alignment of the repeling magnets. If the two magnets are not PERFECTLY centered, the magnetic field between them will not be constant resulting in height variations during platter rotation. Horror!
K
MIN FONAZEIS XRHSTO, ERXETAI, EINAI STO DROMO!
Height variations on a magnetic suspended platter are due to false alignment of the repeling magnets. If the two magnets are not PERFECTLY centered, the magnetic field between them will not be constant resulting in height variations during platter rotation. Horror!
K
MIN FONAZEIS XRHSTO, ERXETAI, EINAI STO DROMO!
Hello all,
Height variations on a magnetic suspended platter are due to false alignment of the repeling magnets. If the two magnets are not PERFECTLY centered, the magnetic field between them will not be constant resulting in height variations during platter rotation. Horror!
K
MIN FONAZEIS XRHSTO, ERXETAI, EINAI STO DROMO!
Height variations on a magnetic suspended platter are due to false alignment of the repeling magnets. If the two magnets are not PERFECTLY centered, the magnetic field between them will not be constant resulting in height variations during platter rotation. Horror!
K
MIN FONAZEIS XRHSTO, ERXETAI, EINAI STO DROMO!
Hello all,
"Traditional" ball bearings are ROTATIONAL pinpoint contacts with friction generating noise and we should not think of them like audiophile spikes. Ball bearings may provide perfect path for vibrations to be sunken by downlaid components, but are also the perfect path for outside generated vibrations to "hit" the cartridge's stylus.
K
"Traditional" ball bearings are ROTATIONAL pinpoint contacts with friction generating noise and we should not think of them like audiophile spikes. Ball bearings may provide perfect path for vibrations to be sunken by downlaid components, but are also the perfect path for outside generated vibrations to "hit" the cartridge's stylus.
K
Last updates finish the heavy flywheel projectr
There have been updates to this paper and it is now finished (at last...)
If you have time, please re-visit:
http://aca.gr/paper37.htm
(Heavy weight-high rotation magnetically suspended flywheel for a large mass magnetically suspended t/t platter!)
Sorry for the 20 months delay...
There have been updates to this paper and it is now finished (at last...)
If you have time, please re-visit:
http://aca.gr/paper37.htm
(Heavy weight-high rotation magnetically suspended flywheel for a large mass magnetically suspended t/t platter!)
Sorry for the 20 months delay...
Congrats, Christos!
I love your metodical and consistent approach to the audio hardware. BTW, could you share you source for polyurethane belts? - I would like to try one.
Cheers,
Michael
I love your metodical and consistent approach to the audio hardware. BTW, could you share you source for polyurethane belts? - I would like to try one.
Cheers,
Michael
Yes I could...
I have no hesitasion to mention their phone & e-mail directly here for anybody interested:
Todd A. Brown
Pyramid Inc.
Sales and Marketing
Phone: 641-792-2405
Fax: 641-792-2478
todd@pyramidbelts.com
Nice thing about them is that they send you samples to try for free...
I have no hesitasion to mention their phone & e-mail directly here for anybody interested:
Todd A. Brown
Pyramid Inc.
Sales and Marketing
Phone: 641-792-2405
Fax: 641-792-2478
todd@pyramidbelts.com
Nice thing about them is that they send you samples to try for free...
Holy mother of all DIY projects! this is one fine piece of engineering.
With regard to the cartridge not being in danger from the magnets - is there some kind of special shielding inside the platter?
Thanks
-T
No danger what so ever...
No special shielding, no danger at all for the very strong magnets indeed of an MC cartridge...
I think I am doing a sort of experiment in this paper.
Thanks for the feedback.
No special shielding, no danger at all for the very strong magnets indeed of an MC cartridge...
I think I am doing a sort of experiment in this paper.
Thanks for the feedback.
- Status
- Not open for further replies.