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Author Topic: New Pseudo Solid design for proof of concept from Butch  (Read 6234 times)

gammarayburst

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New Pseudo Solid design for proof of concept from Butch
« on: July 13, 2011, 04:02:57 AM »
See attached drawing. He is typing operational sequence.
Thanks,
Ray

gammarayburst

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Operational sequence and new drawing
« Reply #1 on: July 13, 2011, 06:52:37 AM »
A. The two plates are in attraction mode to the side bars of the magnetic circuit. One to the left side of the drawing and one to the right side of the drawing. As they separate the magnets move with them. The air gap is reduced between the plates and the side bars of the magnetic circuit to .005". An extra force can be incorporated here if there is an air gap between the magnets and the plates that will cause a repulsion force between the plates but is not shown in this version. This is a well known phenomenon that has been used in the metal fabrication and handling field for 100 Years.
 
B. The insert is now moved in between the two plates. It is the same alloy and size as the two plates. It can have a very slight sliding contact or .003" air gap fit that makes the three plates a Pseudo Solid.
 
C. Now the magnets can move back together as shown in step A.
 
D. Now the incoming plate set which is identical to the original plate set in step A can move into the position that the original plate set was in step A. Notice the magnets are in line with the incoming plate set. When in position the sequence restarts. The insert is out of the magnetic field and can now be removed.
 
Note: The end surface area of the original plates that are showing in step D is the end surface area of one plate.

gammarayburst

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From Butch, Thanks, Ray
"Guys,
This is very interesting! You may notice that in the last design I sent that the in coming plate set is not as wide as the set that has expanded. This allows an edge on each side that the stator magnetic field can pull on as the new plate set moves in to replace the old plate set. This was the only drag element it the entire sequence. But, if you expand the stator so that the incoming plate set is in line with the old plate set then there are no edges to cause drag. This eliminates any and all drag elements in the operational sequence. At some point the expansion has to stop due to size limitations that would have to exist. The stator would then pull on the plates as the stator was removed and work would be needed to do this, but you must remember that the system did work when the plates were pulled in during the very first step of the operational sequence. These two phases cancel each other out! Now we have a system that has next to nothing drag and could be configured in a circle for rotary type operation. I have attached a drawing but it is going to be hard to understand for the public except in 3D animation. Nicolas, could you make one? It could be in a straight line just for illustration of the operational principle. Notice that 3 and 4 are wider than 1 and 2, That is so the new set can come in lined up with the already expanded old set and eliminate any drag.
Butch"

gammarayburst

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Additional drawing
« Reply #3 on: July 13, 2011, 08:38:45 PM »
See attached

gammarayburst

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Note from Butch
« Reply #4 on: July 13, 2011, 08:52:33 PM »
"Notice in the above drawing that when a plate set has expanded and the next plate set which is in line with it will allow for the stator magnets to move in a Pseudo Solid fashion in a straight line across where the two plate sets evenly meet." 

gammarayburst

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Additional note from Butch
« Reply #5 on: July 13, 2011, 09:00:15 PM »
Only the stator magnets move, the remainder of the stator stays stationary. The magnets move from one stator to the next wider stator.
Butch

gammarayburst

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More details from Butch
« Reply #6 on: July 14, 2011, 12:18:01 AM »
"The magnets move from plate set to plate set, the plate sets do not move forward or backward. They only move apart and then return to their original position after the entire system has cycled. The insert bar from the previous design has been eliminated. The different stator plate elements ends are flush with each other and the plate ends are in near sliding contact with an air gap around .003".
Butch"
 

gammarayburst

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Better details from Butch
« Reply #7 on: July 14, 2011, 12:58:42 AM »
See attached,
Thanks,
Ray

gammarayburst

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Stopping magnetic bleed back, from Butch
« Reply #8 on: July 14, 2011, 03:48:07 AM »
"Expanding the plate sets this much will keep magnetic field of the magnets from bleeding back to the previous plate set.
Butch"
Very important note: Each plate set expands the same distance, just because they are wider spaced down the length does not mean they expand that much. They all expand only the thickness of one plate for each expanding plate

gammarayburst

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"This design cancelled due to break through with other group design"
Thanks, Ray