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Author Topic: Fountain Top  (Read 19181 times)

ta0

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Re: Fountain Top
« Reply #30 on: December 01, 2016, 01:00:56 AM »

The drawing cross section shows a tube wall going vertical some distance before reaching the reservoir. The French description says that vacuum is created inside that suctions the water. All this seems reasonable to me but I agree with Jeremy that this is just a transient regime until the path between the surface of the water and the reservoir is filled by the water flow.

I kind of like that the top in Cyril's video and also in Lourens description, wobbles (precesses.) That is more like what I would expect for a top to do.
Unfortunately, you cannot replace the foot by a point because the inner radial tube needs to be static (or at least spinning much slower than the flywheel) for the fountain to work. Therefore, by the strict definition of Cyril himself (that I share) it is not a true top: a true top needs to fall down when not spinning.
« Last Edit: December 01, 2016, 12:22:16 PM by ta0 »
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Pulpowsky

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Re: Fountain Top
« Reply #31 on: December 01, 2016, 04:03:01 AM »

Interesante post y maravilloso vídeo.

Jorge ¿Estás intentando copiar este trompo ante la imposibilidad de conseguir uno que funcione?


Interesting post and wonderful video.

Jorge Are you trying to copy this top because you can not get one that works?
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  Greetings: Jorge Sanjuan.

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Lourens

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Re: Fountain Top
« Reply #32 on: December 01, 2016, 11:51:59 AM »

I post 4 detailed photos of my fountain top. I hope that it helps answere some questions about how the top works and the mix of air and water.
The first picture shows the foot of the top. I have put the top in 25 mm of water. The foot has a Ø of 20 mm.
« Last Edit: December 01, 2016, 12:01:53 PM by Lourens »
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Lourens

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Re: Fountain Top
« Reply #33 on: December 01, 2016, 11:54:10 AM »

The second photo shows the part of the top from foot to reservoir. Hhe water is sucked to the reservoir. Height from foot to top of reservoir is 35 mm.
« Last Edit: December 01, 2016, 11:57:27 AM by Lourens »
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Lourens

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Re: Fountain Top
« Reply #34 on: December 01, 2016, 11:56:30 AM »

The third photo shows the very small pinhole on top of the flat  red upper part of the reservoir. In my opinion to let in air that is mixed with the water. Height  from this part of the top to the fountain spray is 55 mm.
« Last Edit: December 01, 2016, 11:59:35 AM by Lourens »
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Lourens

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Re: Fountain Top
« Reply #35 on: December 01, 2016, 12:01:15 PM »

The fourth photo shows the opening for the fountain to spray its water. The heigt of the top in total is 90 mm. The gyroscope has a Ø of 70 mm.
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ta0

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Re: Fountain Top
« Reply #36 on: December 01, 2016, 12:40:50 PM »

Thanks a lot Lourens!
It does have a side hole to the exterior, after all! It is an interesting complication as it would go against the creation of any vacuum.
It is a pity that the foot blocks the view of the water inlet (if my understanding is correct and the water enters at the lower bearing and not at the foot itself).

Quote
Jorge Are you trying to copy this top because you can not get one that works?
Not at this time. Maybe one day  ::)
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Jeremy McCreary

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Re: Fountain Top
« Reply #37 on: December 01, 2016, 05:00:29 PM »

Further proof -- as if it were needed -- that I have way too much time on my hands...

The third photo shows the very small pinhole on top of the flat  red upper part of the reservoir. In my opinion to let in air that is mixed with the water. Height  from this part of the top to the fountain spray is 55 mm.

Many thanks for the original directions, photos, and dimensions, Lourens. Per the directions, the "pin hole" is a lubrication port leading to the bearing supporting the rotor.

Oil port: I'm betting that this oil port has no significant effect on the air and water flows through the top at any stage. In the cut-away drawing, the "rotor bearing" surrounds the centerline above and between labels "C" and "R". When lubricated, the metal bearing surfaces would be separated by a thin film of pressurized oil. Given the weight of the rotor, this film would be unlikely to pass either air or water. Ditto for any water film or metal-on-metal contact in the absence of oil.

So, if there are no other holes above the vertical water intake at the bottom of the rotor (above label "B"), that intake must double as the only air intake of significance. Let's just call it the "intake" for short.

Spin-up after immersion? The directions clearly instruct the user to spin the top before immersing the intake, as Cyril did in his video. Whether this order is a necessity or just a matter of convenience is unclear. If a necessity, then the air fountain stage would be an essential step toward the water fountain stage, with a brief air-powered priming stage in between.

The test would be simple enough: Submerge the intake first and then spin up the top.

The drawing cross section shows a tube wall going vertical some distance before reaching the reservoir. The French description says that vacuum is created inside that suctions the water.

Agree, close inspection of the cut-away shows that this lowermost vertical rotor section surrounds an annular intake already filled with water. The water forms a continuous peripheral layer from there to the fountain inlet at label "C". To my mind, this scenario depicts only during the fully primed water fountain stage.

The inner wall of the intake is a cylindrical "cup" holding the (stiff ball-and-socket?) joint that allows the top to pivot on the foot. The cup is rigidly attached to an internal "spindle" ending above in the rotor bearing. The radial fountain inlet arm "C" is clearly part of the spindle, which is also rigidly attached to (i) the vertical fountain outlet tube ending above near label "D", and (ii) the handle via (i). As ta0 suggested, the rotor spins relative to the spindle and all its extensions. How the manufacturer got that L-shaped spindle part inside the ostensibly one-piece rotor is beyond me.

Self-priming? The old book explanation ta0 posted clearly implicates air in the priming process, but the author could have been mistaken. If the external water bath were deep enough to submerge the entire vertical intake and a portion of the sloping rotor reservoir as well, the fountain could conceivably be self-priming in the manner Dick suggested, with no need for a priming air flow.

However, the water in Cyril's video doesn't look deep enough for that to me. And judging from Lourens' measurements and the cut-away, neither is the design water bath depth of 1/2 inch (12.7 mm) called for in the original directions. If so, the role of the priming stage would be to propel water through the vertical intake and into the sloping rotor reservoir, where centrifugal force can take over. The most likely propellant in this case would be the air flow already established during the air fountain stage.

External Archimedes screw? The odd spiral ridge on the outer surface of the vertical intake could be strictly ornamental, but it could also assist in priming by acting as an Archimedes screw. The external water lifted by the screw would increase local water pressure at the submerged intake, thus reducing the net head to be overcome during priming.
« Last Edit: December 01, 2016, 05:13:24 PM by Jeremy McCreary »
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Art is how we decorate space, music is how we decorate time ... and with spinning tops, we decorate both.
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Dick Stohr

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Re: Fountain Top
« Reply #38 on: December 01, 2016, 10:18:07 PM »

I am out! You guys figure it out. :)
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the Earl of Whirl

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Re: Fountain Top
« Reply #39 on: December 01, 2016, 10:48:54 PM »

I am out, also.

I am Hout, also.
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Jack

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Re: Fountain Top
« Reply #40 on: December 02, 2016, 12:09:06 AM »

« Last Edit: December 02, 2016, 12:07:26 PM by ta0 »
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jim in paris

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Re: Fountain Top
« Reply #41 on: December 02, 2016, 06:51:34 AM »

final words by Cyril on the phone last night:

"
j'ai relu les explications du journal La Nature de 1889 et je crois que c'est Dick Stohr qui a raison. Il n'y a pas de vis sans fin comme je le croyais."

"It's Dick who is right"
" there is no Archimedes screw as i thought"
(it's just a decoration...)

i've just got the full length video of the fountain top in action;
but it doesn't bring new elements


jim
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Lourens

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Re: Fountain Top
« Reply #42 on: December 02, 2016, 08:53:33 AM »

I have checked out my top very very closely and I think:
Ta0 is right with his opinion about the place where the water enters, so not at the foot but 10 mm higher.
Jeremy is right about the lubrication port
and finally
Dick is right about the abcence of the Archimedes Screw and how the spinning top works.

I enjoyed this conversation and hope that everyone enjoys this curious top for many reasons, just as I do! As a design made by Britain in late 1880's. Thanks very much to all the members of the Forum for taking part on this discussion!
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ta0

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Re: Fountain Top
« Reply #43 on: December 02, 2016, 12:23:47 PM »

We all agreed on the way it works once water flows into the reservoir. The doubt was how it got there: does the conical part have to be submerged or is it vacuum sucked from the inlet?

The water level only needs to reach the inlet at A on the figure, not B, doesn't it?



I look forward to inspecting it myself on a future visit to these fine collections   :)
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Lourens

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Re: Fountain Top
« Reply #44 on: December 03, 2016, 05:10:40 AM »

Yes Ta0, in my opinion the water level needs to reach A. The screw formed part is, i think, just for decoration.
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