Searched and found patent (attached, ukranian, untranslated)
https://www.youtube.com/watch?v=yUo1dqXP2j8 (https://www.youtube.com/watch?v=yUo1dqXP2j8) (Ukrainian)
Quote
https://www.youtube.com/watch?v=0g0FcY-7Fw0 (https://www.youtube.com/watch?v=0g0FcY-7Fw0)
Perpetual motion on the theory of Sofia Kovalevskaya - body motion around a fixed point. Replacement of the internal combustion engine.
All the details on the website ermola.com.ua
http://www.ermola.com.ua/ (http://www.ermola.com.ua/) (link through translator) (https://translate.google.com/translate?sl=auto&tl=en&js=y&prev=_t&hl=en&ie=UTF-8&u=http%3A%2F%2Fwww.ermola.com.ua%2F&edit-text=&act=url)
https://plus.google.com/116593071308171161718/posts/LLuryYCEerh (https://plus.google.com/116593071308171161718/posts/LLuryYCEerh) (ermola on G+)
animation of above
https://www.youtube.com/watch?v=6tr4cyFwCJ8 (https://www.youtube.com/watch?v=6tr4cyFwCJ8)
Simulations based on above(?)
https://www.youtube.com/watch?v=9MWHURfJPfk (https://www.youtube.com/watch?v=9MWHURfJPfk)
https://www.youtube.com/watch?v=PLqMu1iW_Uk (https://www.youtube.com/watch?v=PLqMu1iW_Uk)
https://www.youtube.com/results?search_query=Ermola+Andrei (https://www.youtube.com/results?search_query=Ermola+Andrei) (a few more simulations of above)
The triangles are a tool to visualize, and are not accurate to function. (yes, baffling, but that makes more sense that it represents an idea rather than implementation)
Reminded me of Archimedes Sphere
https://www.youtube.com/watch?v=DqDJAPpAlTg (https://www.youtube.com/watch?v=DqDJAPpAlTg) ... apparently a bobber and a weight will continously offbalance liquid in a sphere and provide an acceleration
Or this one... a offset ball bearing pulled by a magnet, causes continuous drive....
https://www.youtube.com/watch?v=RkLfpXpO5sQ (https://www.youtube.com/watch?v=RkLfpXpO5sQ) ... would have to be in the corner of the magnet... a linear pull will not affect the same.
Another off-balance implementation
https://www.youtube.com/watch?v=OWRyYYX7JxE (https://www.youtube.com/watch?v=OWRyYYX7JxE)
Redheffer Perpetual machine
https://www.youtube.com/watch?v=r-qfY0sUAqA
----- translated patent text; translate.google.com -------
Abstract: The invention relates to engineering and can be used in all sectors to reduce the frequency of turns in the transmission of rotation of drive shaft driven at a high gear ratio and ensures the creation of simple to make, cheap and reliable gear with a larger gear ratio, high efficiency, able to transfer the load, compared with the traditional planetary gearboxes with small dimensions, characteristic of gears with small difference in numbers of teeth of wheels, and improving resource works by eliminating the imbalance is unbalanced rotating parts reducer. For this gearbox, which contains the set of bore casing drive shaft and a driven shaft, which is fixed flywheel according to the present invention, host and driven shaft mounted coaxially to each other, on the free projecting beyond the end of the drive shaft of the case that has the capability of axial move, set basic bearings, in addition to the drive shaft shift axially mounted screw and square, the outer surface of the screw is connected to the sleeve covering its outer surface which in turn is rigidly connected to the carrier, tightly bound with flywheel and the outer surface is covered more square hub, which is attached to the centering disc interacts with the inner surface of the shell through the bearing, and the sleeve and the sleeve with additional possibility of independent twist in mutually opposite directions; inside the flywheel, eccentric last set by gear with internal teeth affected with gear rigidly attached to the bore of the case as a shell, coupled with the flywheel using the bracket, one end of which is connected via bearings with an outer surface of the shell output shaft and the other end passed through the flywheel freely inside the shell is driven shaft made geniculate, the output end of which is connected to it through the bearings, and the opposite end as the knee rigidly attached to said UA 104828 C2 (12) UA 104828 C2 additional plugs , with the axis of rotation of the output shaft end as the knee associated with the inside of the gear through the bearings, coincides with the axis of rotation of the gear. UA 104828 C2 5 10 15 20 25 30 35 40 45 50 55 60 The invention relates to engineering and can be used in all sectors to reduce the frequency of turns in the transmission of rotation of drive shaft driven at a high gear ratio. Reduction of general application - a gear that meets the technical requirements common to most applications. Due to its versatility reducers are successfully used in material handling, forestry equipment, metallurgical and coal-mining equipment, power engineering, construction industry, oil nd gas industry, agriculture and manufacturing engineering. Famous gear (auth. St. USSR N 654820, MPK F16N21/42, 1976 p.), Containing eccentric device that converts the rotation drive shaft into oscillatory motion of the lever, and then through the freewheel to rotate the driven shaft. However freewheel but eccentrics and levers require devices jammed in one direction and vidklynyuyut to another - it clips, spring, etc. Rollers create significant specific pressure and accelerate the wear surface traction output shaft. To keep the output shaft couplings need more to continue rotation on off time of the first clutch or refraining from reverse rotation and reverse for another set of the same socket. This makes the complexity of the device and can not be used to transfer large capacity. There is also the closest to the proposed eccentric reducer (RF Patent № 2025621, IPC 5 F16H19/00, F16H27/04, publ. 30.12.1994) containing a set of bore casing drive shaft and a driven shaft on which the flywheel is fixed at he has slider mounted on the top eccentric shaft is installed on a slider rotatably on the output shaft flywheel mounted on one end of the slider is made a through groove to accommodate the latter, or axis, or output shaft and the other end of the slider has a surface corresponding to flywheel surface for interaction with the latter. The disadvantage is the complexity of gear described in the making, high cost, inability to work with a high gear ratio and not high efficiency due to the fact that the presence of the slider can lead to an imbalance that is unbalanced rotating parts reducer. The invention is based on the task to create a simple to manufacture, reliable and cheap gear with a larger gear ratio, high efficiency, capable of transmitting loads compared with conventional planetary gearboxes with small dimensions characteristic of the gear with a small difference between the numbers of teeth of wheels, as well as increasing resource work by eliminating the imbalance is unbalanced rotating parts reducer. To solve this problem in the gearbox, which contains the set of bore casing drive shaft and a driven shaft, which is fixed flywheel according to the present invention, host and slave shaft mounted coaxially to each other, on the free projecting beyond the end of the drive shaft of the case, which has possibility of axial movement, established a support bearing, in addition to the drive shaft shift axially mounted screw and square, the outer surface of the screw is connected to the sleeve covering its outer surface which in turn is rigidly connected to the carrier, tightly bound with flywheel, and the outer surface is covered more square hub, which is attached to the centering disc interacts with the inner surface of the shell through the bearing, and the sleeve and the sleeve with additional possibility of autonomous cranking in mutually opposite directions; inside the flywheel, eccentric last set by gear with internal teeth affected with gear rigidly attached to the bore of the case as a shell, coupled with the flywheel using the bracket, one end of which is connected via bearings with an outer surface of the shell output shaft and the other end passed through the flywheel freely inside the shell is driven shaft made geniculate, the output end of which is connected to it through the bearings, and the opposite end as the knee rigidly attached to said sleeve further, with the axis of rotation of the output shaft in the end a knee associated with the inside of the gear through the bearings, coincides with the axis of rotation of the gear. Proposed reducer provides the opportunity to achieve the same degree of transfer of significant correlations, which reduces its size, make a cheap, simple and more reliable in comparison with gear on the prototype, moreover, it is not difficult to make, which reduces its cost, also provided an opportunity to work with a high gear ratio, and due to the lack slider excluded imbalance, ie UA 104828 1 C2 5 10 15 20 25 30 35 40 unbalance of rotating parts reducer and as a result, increasing efficiency. FIG. 1 shows a general view of the proposed gear, FIG. 2 - section along A-A of FIG. 1. Reducer contains set of bore casing 1, 9, drive shaft and driven shaft 2, which is fixed flywheel 5, the inventive driving shaft and a driven shaft 9 2 installed coaxially to each other, on the free projecting beyond the end of the body 1 drive shaft 9, which has the ability to set the axial movement of the bearing reference 8, except for the drive shaft 9 with a shift in the axial direction successively fixed screw 14 and box 15, the outer surface of the screw 14 is connected to the engulfing his sleeve 7, the outer surface is in turn rigidly connected to the carrier 13 is rigidly connected with the flywheel 5 and the outer surface of 15 square covered by an additional sleeve 6, which is attached to the centering disc 12 interacts with the inner surface of the housing 1 via bearings with sleeve 6 and 7 are optional plug possibility autonomous rotation in mutually opposite directions; inside the flywheel 5, eccentrically last set by gear 4 with internal teeth affected with 3 gear rigidly attached to the bore casing 1 in a shell 10 connected with the flywheel 5 using bracket 11, one end of which is connected via bearings with outer surface of shell 10 output shaft 2 and the other end is freely passed through the flywheel 5, 10 placed inside the shell driven shaft 2, made geniculate, the output end of which is connected to it through the bearings, and the opposite end as the knee rigidly attached to said further sleeve 6, and the axis of rotation of the output shaft end 2 as the knee associated with the inside of the gear bearings through 4, coincides with the axis of rotation of the gear 4. Proposed reducer work like that. Through supporting bearing 8 with the jack or manually applied axial force on the driving shaft 9, resulting in the sleeve 7 and the additional sleeve 6 which are meshed according to the square of the screw 14 and 15, trying provernutysya in mutually opposite directions (the direction of rotation clockwise or counterclockwise depending on the direction of the screw bands), while the sleeve 7, the outer surface is rigidly connected to the carrier 13, the carrier 13 causes the flywheel 5 in rotary motion, and an additional bushing 6 is rigidly connected with the output shaft 15 knee 2 , the latter also leads to a rotary motion, thus creating the effort to point "B" lesser efforts occurring at point "A", because this gear 4 with internal teeth, which is in engagement with the gear 3 rotates and drives the flywheel 5. flywheel 5 thus stops further lowering the drive shaft 9, and axial force on the sleeve 7 and 6 additional sleeve remains intact gear 4 because of its eccentric location relative to the axis of rotation of the lead 9 and the driven shaft 2 provides transfer torque to a driven shaft 2. centering disk 12, further comprising the sleeve 6, interacts with the inner surface of the casing 1 through the bearings and drive shaft 9 centered relative to output shaft 2. claims are 45 50 55 60 Reducer, containing mounted in bore casing 1, drive shaft 9 and a driven shaft 2, which is fixed flywheel 5, characterized in that the driving shaft and a driven shaft 9 2 mounted coaxially to each other, on the free projecting beyond the end of the body 1 drive shaft 9, which has the ability to axial movement, established a base bearing 8, in addition to the drive shaft 9 with a shift in the axial direction successively fixed screw 14 and box 15, the outer surface of the screw 14 is connected to the engulfing his sleeve 7, the outer surface is in turn rigidly connected to the carrier 13 is rigidly conn associated with flywheel 5 and the outer surface 15 covered more square sleeve 6, which is attached centering disc 12 interacts with the inner surface of the casing 1 through the bearings, and the sleeve 6 and 7 are optional plug possibility of independent rotation in mutually opposite directions; inside the flywheel 5, eccentrically last set by gear 4 with internal teeth affected with 3 gear rigidly attached to the bore casing 1 in a shell 10 connected with the flywheel 5 using bracket 11, one end of which is connected via bearings with outer surface of shell 10 output shaft 2 and the other end is freely passed through the flywheel 5, 10 placed inside the shell driven shaft 2, made geniculate, the output end of which is connected to it through the bearings, and the opposite end as the knee rigidly attached to said further sleeve 6, 2 UA 104828 C2 with the axis of rotation of the output shaft end 2 as the knee associated with the inside of the gear bearings through 4, coincides with the axis of rotation of the gear 4. 3 UA 104828 C2 Desktop Publishing Alexander Ryabko State Intellectual Property Service of Ukraine, vul. Urytskogo, 45, Kyiv, MSP 03680, Ukraine State Enterprise "Ukrainian Industrial Property Institute" str. Glazunov, 1 in Kyiv - 42 01601 4
Nothing new from the invetor of this perpetual motion machine...
I created blog of everything all can find online about this motor.
Who is interested please visit: http://ermolamotor.blogspot.si/ (http://ermolamotor.blogspot.si/)
Currently i am on a half way to replicate it...
One of my YT subscribers tried a replication and has not much good things to say.
He tried contacting Ermola without success.
https://www.youtube.com/channel/UCcUyJUG1pVDikpNuhizVIjg/videos
Fake or not, I think I find working solution...
I will build this asap and show you the results ;)
Here is video of simulation https://youtu.be/GD-2VPWD510
I attached 2D image of side view and algodoo file so you can test it by yourself
Merry Christmas :)
Stop waisting your time over this, i contacted Ermola personally and he has nothing to offer. Whole thing being just a bogus.
Still no progress on replicating ermola gear...
Now I simplified this gear if someone can help me?
Need mechanism which will push blue gear from green circle only on outer half where orange dot is...
Watch simulation when I add spring you can see it is possible... but when it get on inner side of the blue gear I get reverse rotation...
https://youtu.be/NHcStpmHRVI
If someone have idea how to do it please share it... I believe we can do it together ;)
Thank you
After some time I get new idea about this motor...
https://youtu.be/0NGstpB5NzI (https://youtu.be/0NGstpB5NzI)
In practice, the yellow circle should be pushed to try rotate it which will then rotate silver gear and silver gear will push red gear to rotate around own axis and red gear will push on fixed green gear and then blue circle will rotate around own axis because red gear is attached to blue circle with bearings... my theory :) what do you think?
because silver and fixed green gear have the same number of teeths the yellow circle doesnt rotate...
i will try to build this model and test it...
you can try algodoo file to simulate it
thank you