MrVibrating wrote:I've now tested this pretty much to death - i've wracked my brains for any additional options or possibilities but can't come up with any configuration of this apparatus that does what it says on the tin.
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The central claim laid out in the patent application is patently false,
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It does seem inconceivable though that the claimant could genuinely believe the claims set out in the patent application.
My verdict: Scam/hoax/delusion... most likely fraud imho... Either way, his investors haven't done due diligence..
Hi MrVibrating,
You have done some good work on this conundrum, I am impressed !
This puzzle also has kept me entertained over the last few weeks. I like working with partners that do their homework rather than wire sitters that usually give un-researched opinions that disturb. This encouraged me to share my finding with you , I registered yesterday.
We need to be always somewhat cautious about output data from "simulators & computers", the output is only as good as the input, so your measurement might be skewed due to incomplete tuning data.
I found "one" & "main" underlying principle to what the inventor was aspiring to. And it is a good one with possibilities. I haven't taken it to the end of the road as yet, so I give no final verdict.
Let me share the following finding with you that might help you tune your simulation to give an output hopefully closer to the "actual".
The objective of the invention is to get (by means of a human introduced interference)
1.. More energy out of the crankshaft than we need to input into the crankshaft to restore all back to start point
or
2.. With the given energy out of the crank, we put less energy into the crank to rstore the system.
Both statements say pretty much the same, it is only a question on what side we tamper, the “up� or the “down� part of cycle.
Note that I said crank in the above, not weight.
What I describe here is only the descending part of the cycle. Do keep in mind that this is only one aspect, Ribeiro is looking at more than one additional principles to increase the balance difference. Although I think this is the core principle.
1.. The mechanical setup is a dual tandem roberval setup, the middle horizontal member is shared. The lower roberval is made up by the con-rod drive shaft as vertical member and the crankshaft as the lower horizontal bar. The upper and lower roberval are connected by the joint called “central shaft�
2.. The roberval forces, The weight attachement to a vertical member causes 2 forces
* The vertical gravity weight force
** The rotational lever force caused by the weight (dependent on weight location along the vertical member). This puts a tension on the top horizontal member and a compression on the bottom horizontal member.
3.. The arc connection mechanism locks allows choice to connect to vertical member of the top or lower roberval.
4.. When connected to the con-rod (lower vertical), we introduce an additional force onto the crankshaft arm (lower horizontal member). The rotational setup causes this force to be “for or against� at certain rotation quadrants. This lateral force is with the rotation in the 90-270 quadrant compared to the 0-180dgr for the axial gravity weight force.
5.. The 2 forces combine into a composite vector (vector parallelogram) at the lower connection joint (con-rod to crankshaft arm) that modifies the resultant vector angle to be better positioned to drive the crankshaft perpendicular through part of the descend rotation.
6.. Driving with force takes movement, so the energy taken by the lateral force in the 90-180 dgr quadrant to do work has been stored in the angular position of the triangle to where the weight is attached. So our crankshaft energy input in the first 90dgr is lessened by the storage requirement for the lateral force (tilt of the triangle) . The weight height drop for the axial force in these first 90dgr is estimated to be only 60% of what it would have been without triangular storage tilt. The storage peaks at 90dgr (furthest horizontal out position of the crank joint). The storage use is exclusively reserved for the “lateral force� and is used after 90dgr.
Note: This quantity of lateral energy can no longer be made available to the axial force.
In summary, In the process, we take energy away from the standard axial energy and so reduce the power over the first 90dgr of rotation, to add this towards a force vector angle improvement in the second 90dgr of rotation.
The main question; What is the difference between effective crankshaft power in the quadrant 90-180dgr and the 0-90dgr quadrant. An integration would clarify this.
No difference : Standard physics
Loss : worse than standard
Gain : This is what is being aimed for.
Notes
1.. The physical setup and other details are all chosen carefully to get the best advantage.
2.. The sin/cos phasing relationships plays also an important role.
3.. That both forces (axial & lateral) are similar in strength but their effectiveness as seen by the crankshaft is 90dgr out of phase
4.. It must be noted that the first quadrant reduces in angle and making the second 90 dgr larger in the process.
I hope this view gives you some new inspiration,
Regards, Red_Sunset
