propulsion – Page 3 – Grassroots Mechanic Movement

PIETECH Page 12, Happy New Year (Thank God 2020 is Over, Let’s Move Forward!!!)

As 2020 comes to a close, I look forward to what 2021 will bring. “Normal” life was suspended, the MSM news cannot seem to find anything to report that doesn’t have a carefully scripted narrative, alternative news sources have come under fire from big tech and the MSM, but those of us quietly building, designing and experimenting found the slow-down to be a productive time.

It has been a strange year but there has been a great deal of progress by “amateur” researchers and experimenters, so I thought it only right to recap some of the more important inertial & gyroscopic propulsion findings of 2020.

From esteemed engineering professionals to a host of virtually unknown tinkerers (me) and from all parts of the world, approaches to building a fully functional inertial drive system are quite varied but the experiments publicly presented have erased all doubt that this is a valid (although infant) technology which will soon be a budding mainstream industry.

Early in 2020, the early evidence presented and posted on video platforms such as YouTube and BitChute was still drawing a LOT of negative attention from some “learned” “experts” who unequivocally argued that all working units are fakes designed to defraud the unlearned public. Most of these demonstrations were genuine, and many of the online attackers were nothing more than “trolls” attempting to keep honest people from discovering anything meaningful. I am not going to speak for the many brilliant people who have designs of their own, I will only mention the work I have done over the last 12+ months.

In 2019, I had finally built a proof of principal gyroscopic design of my own design when I happened upon the work of Roy Thornson. I saw his design as a highly workable and developable device that should be replicated and improved. So I shelved (but kept intact) my initial work and switched to the Thornson design. I downloaded everything I could find, bought every available technical reference, and eventually even contacted someone who knew Roy personally. Within a month or two, I had a Thornson based replica that could self-propel across a workbench and I was “hooked”.

I decided that because I had built a working model that could easily “go missing”, the safest way to keep both it and me safe was to make every step public, free, and open source. So all the building steps were posted to a blog (this blog) and the machinery itself video recorded and publicly released. I hope that my work can help someone else with their journey.

The things I learned and overcame regarding inertial propulsion are all posted publicly, but here is a recap (I’m sure there are things I missed):

How to make steel spur gears, cheap enough to be disposable.

How to attach automotive flexplates to bearings for the main wheels.

How to make different types of swinging weights.

How important the inner stop is, it does not work without it!

How to make the outer stop a part of the planet gear.

How a slipping belt can cause it to stop thrusting (chains are better).

How different configurations of gears affect performance.

How different timing affects performance and is different for hybrid use.

How a dead blow weight design enhances performance.

How performance is affected by counter rotating wheels.

How to effectively use as a hybrid “helper” drive.

How to make better steel gears.

How to select the correct drive motor.

How to write a manual.

How to build a website.

How to ignore (and delete) negative comments.

How important it is to have friends who understand inertial propulsion (thanks Tokio).

How an eccentric gear design can enhance performance.

How important it is to listen to and commune with my God.

I also learned a whole lot about what does NOT work!!!

There are probably more items to add… Read the blog & watch the videos for details including some failed tests, early tests, designs that work, and designs that don’t.

I already have 2 design changes in mind for the first part of 2021, it should be exciting! I hope others get busy building too! I also hope everyone stays safe. Happy New Year!

First Propulsion Bench Test for PIE 4.6

I had intended to wait and do the first true propulsion test on the 4.6 on a proper set of bearings or wheels, but I found myself with a few minutes of free time so I went into my lab area to think about “next moves” & decided that I simply wanted to see it move on its own.

So, it was nothing fancy and the battery was not “riding” along with it. No numerical data was recorded either. I simply placed two short (about 12”) lengths of ½” (12mm) conduit under the PIE 4.6 which would allow it to move freely forward and backward.

The RPMs were slowly brought up from zero and as soon as the weight started to swing properly the PIE 4.6 moved forward only, and with a great deal of authority. I was VERY pleased, and I was truly amazed at the lack of backward movement which I am attributing to the dead blow design. I will be posting a video very soon (might be posted by the time this is being read) so please check my YouTube & BitChute channels. https://www.youtube.com/user/stclairtechrd and https://www.bitchute.com/channel/miGkQfBM24NZ/

I will be making a couple more of these amazing Dead Blow Weights with its attached Guide (DB-G) as soon as possible so that I can see if the 4.6 will still move properly with multiple planet gears using the DB-G. From there, multiple wheels would be on the agenda along with experimentation much like those performed with the 1.0 and 2.0 such as synchronous rotation vs. counter-synchronous rotation etcetera.

It has been mentioned that the slow progress and multiple videos posted with little success tend to be frustrating. This is the methodology employed by the scientific community and by professional Model Makers worldwide. Even though I know what I want to build, taking these slow and methodical steps allow me to eliminate component designs with inferior performance and focus on those designs with more promise. The more successful designs, to which I am adding the PIE 4.6, are the fruit of this painfully slow methodology. Regardless of anyone else’s personal beliefs (all are welcome to their own beliefs) I also acknowledge a divine inspiration fueling my own personal path of growth in this lifetime.

PIETECH Page 9 – PIE 4.5 With New Dead Blow Type Weight

The latest test of the PIE 4.5 is using a 1 kg dead blow type weight. The weight is a steel box with steel shot (BB’s) inside it. It appears to have a lot of promise, as there is virtually no “bounce” when the weight hits the inner stop, and it seems to be dampened where it would contact the outer stop if it had one (has not been installed).

There is a video of this first testing on YouTube and BitChute. The problem however remained that the centrifugal force and impact force did not push in the same direction, which was the reason for Thornson’s “Inner Planet Trap” which would hold the weight and release at the correct time.

The answer is to install a “guide” on the end of the weight which would keep the weight near the center axle and correct the problem of thrusting in two different directions. This is proving , so far, to be a much improved design. This can also be seen on YouTube and BitChute.

These improvements are now bringing the PIE version up to “PIE 4.6”.

Check out the videos on YouTube and BitChute & thanks for watching!

https://www.youtube.com/user/stclairtechrd

https://www.bitchute.com/channel/miGkQfBM24NZ/

PIETECH P. 5 – Upcoming Manual, Website, and Continuing the PIE 4.3

I apologize for the time lag since my last posting, life tends to get in its own way sometimes but we all do what we have to do.

Website & Manual: I am building a website for my little consulting firm focusing on the R&D side as well as the PIETECH manual (basically complete, getting finishing touches now). There will also be access to companion videos. That access will only be available with the purchase of a manual. The address to the website is http://www.stclairtech.techit is online now but I hope to have it truly functional in the next 3 weeks.

At this point in time, the manual (and its companion videos) will be the only information that is not completely free. This will hopefully help offset some of those constantly inflating costs.

A Kit?: Another possibility which came to me as a suggestion is that of a functioning miniature model kit. The kit may be a partially assembled, or only contain the finished pieces. That idea is still only on the drawing board for now until the logistics can be fully worked out.

PIE 4.3 Current Progress: I have taken the PIE 4.3 apart to replace the drive pulley with a chain sprocket. This has given me the opportunity to analyze the unit looking for weaknesses and damage.

Disassembled PIE 4.3

Broken Outer Stop

It is very apparent that the outer stops were the first weak point, and once they would break there was a cascade effect of failures. The weight would, at times, be allowed to collide end first into the inner stop (sun gear axle). This caused enough deflection in the wheel and axle that the planet gear could skip a few teeth and become “out of time” with the assembly. Now that the 4.3 is apart I have found that the wheel is slightly bent (about 3mm or 1/8”) which is not enough to need replacing yet. The axle is also bent, and that is now definitely scrap metal, There are vides posted to YouTube and BitChute describing the process and showing the bent axle.

YouTube: https://youtu.be/wmoc2-1v43A

BitChute: https://www.bitchute.com/video/rfK5qGGRDffR/

I have also received 2 new gear-motors for the PIE 4.3 which are all set up to run at approximately 300 RPMs at 24 volts DC. I am seriously considering running 2 wheels, each with their own drive motor. That may be overkill, but right now design simplicity is very important for the purpose of easy transitioning into the testing phase.

New Motor

It is reasonably simple to set up a chain drive that would spin the wheels in opposite directions (obviously planning opposing wheels) and they would obviously always be in-sync with each other, but there are other testing considerations like running wheels at different speeds and easily being able to reverse either wheel’s rotation.

PIETECH P.4, Coming Soon, a PITECH Builders’ Manual, Also Continuing the PIE 4.3’s Progress

PIETECH Manual: There has been a “Manual” in the works for a while now. It is coming together well and once it is completed it should be a valuable resource for anyone wanting to experiment with Inertial Propulsion without spending untold hours with trial and error testing and expensive components that may not be exactly what is necessary. I have several reasonably complete drafts sent out to other people familiar with this technology for their opinions and criticism. Below is a preview shot of the Cover and the Table of Contents as it is right now.

I am hoping to have this available before the end of the year!

PIETECH Manual Cover

There is also a section within the manual that explains the mechanisms which create the driving force in greater detail than has ever been published, to the best of my knowledge. Color photos and detailed instructions means that little or no math is necessary to follow along, build a working PIE 1.0 or 2.0, and gain a better understanding of the inertial propulsion principals proven to work via the PIE.

PIETECH Manual TOC

Continuing on with the PIE 4.3: Now I am preparing to expand the PIE 4.3 into a 2-wheeled unit running in the 200 to 300 RPM range. Tests have proven the possibility of running RPMs in the 850 to 1000 range, but the components would need a pretty severe redesign in order to sustain those RPMs for more than a minute or two, so I am planning on staying under 500 RPMs for now.

Component Failure: The damage from running at full speed (around 875 RPM) is significant. Both outer stops were broken (twice each), and the sprocket gears used as the planet gears have many bent teeth.

Much of that damage was incurred when the outer stop(s) broke and the weight could jam the assembly. That is also when timing would jump.

“Overspeed” Gear Damage

Possible Gear Changes: Notably the sun gear is completely undamaged! Since there is no damage there and considering the severe pounding the gears in the PIE 2.0 suffered with only minor issues (spot welds breaking), I am reluctant to purchase expensive spur gears which will absolutely have weaker teeth than my homemade ones. Better welding, and perhaps a coating should make perfectly acceptable gears that will stand the abuse of slinging the PIE’s weights.

Sprockets for Now: I will probably continue to use the sprockets as planet gears for now, but if they continue having damage issues they will need improvements to minimize the problem.

The sprockets I am using in the PIE 4.3, they are 40A26 sprockets with a 1” center hole. When I weld in the rods, I could skip every other space and that would make 13 tooth gears that would be much stronger and mesh with better precision than just welding rods to a flat pulley.

Those sprockets are very inexpensive from https://www.surpluscenter.com (around $3 US each at this time) and they are easily welded.

40A26 Hubless Sprocket

Adding to the PIE 4.3: I now know for a fact that the PIE 4.3 produces 20 oz. of thrust at 275 RPMs, and it runs smoothly at that speed. A second wheel is being added, and it will need to be timed to the first wheel, so a chain drive is being planned out for the drive. I would ideally be able to test with both synchronized “sympathetic” spin wheels and also test with synchronized but “opposing” spin wheels and switch directions as easily as rerouting the chain and having a second set of weights. Time will tell how that works out.

Wheel Configuration: It is VERY tempting to stack the wheels up for this higher speed unit, like the PIE 2.0, but I think it should be a side-by-side to make the switching of directions as simple as possible. I suppose the question should be regarding the placement of the second wheel. Beside the 1^st one or in front of it? Perhaps that is something else that should be “changeable” for experimentation purposes as well…

MORE TO COME SOON

PIETECH V.1, P. 3: PIE 4.3 has a Brand-New Cart, 1st “On-Wheels” Test

I am now actively conducting thrust tests on the PIE 4.3 with positive results.

Since it certainly appears to have a lot of propulsive force in bench tests and is rather unruly on the bench, it seems that a heavy and sturdy cart should be used.

I have modified a steel cart, which I had originally built for an entirely different purpose, just to be the new PIE 4.3’s cart complete with solid solid tires and ball bearing wheels.

New Cart With New Wheels

It took several runs at nearly full speed to properly adjust the sun gear for forward thrust without pulling to one side or the other. During those test runs, there was enough force to move the cart forward and slide the wheels sideways approximately 10 inches.

Mounting The PIE 4.3 To The New Cart

During those test runs, one outer stop broke and the excessive lash on one of the planet gears caused it to skip timing, but even though weaknesses were obvious the overall test was successful.

PIE 4.3 On Its Wheels After First Round Of Testing

The cart and PIE 4.3 total assembly weight is 130 lbs. New ball bearing wheels with solid rubber tires allow it to roll smoothly on a concrete floor, although some places on my shop floor are better than others. I have several vehicles in different states of disassembly in the shop, so I was limited to a spot where the floor is not quite as smooth so all tests have been repeated in the same “wheel tracks” to be certain that variances in the floor would not skew the numbers. All thrust and resistance tests are being measured using a digital scale.

So, on to the numbers for THIS test sequence.

Unit weight: 130 LBS.

Number of flexplate wheels: 1

Number of weights: 2

Mass of weights: 1.9 OZ.

RPM of flexplate: 275

Rolling resistance “off”: 40 OZ.

Rolling resistance “running”: 20 OZ

Result: 20 OZ of forward thrust – running at 275 RPMs.

Volume 2 Page 15, PIE 4.0, The High Speed PIE:

PIE 4.0

The latest incarnation of the PIE is kind of a step back to an earlier design as well as a step forward to push the limits of PIETECH possibilities.

I am using a single wheel (for now) with a much lighter weight, even lighter than the PIE 1.0 design. I am trying out a quiet gear set which uses a 14mm pitch timing belt as the teeth which is fastened to the same size (3.5″) steel pulley as used on the PIE 1.0 & 2.0, and although it is quieter I am not sure if the teeth are robust enough to use as a spur gear.

Initial testing of the PIE 4.0 is very encouraging, although there are some small issues arising from the increased speed which has currently been measured at just over 750 RPMs. The most serious issue has been the used motor I pulled off of the storage shelf. Although the 110 volt motor was marked as “Good” because it runs well without a load, it quickly overheats and shuts down when it is turning the PIE4.0. The other issue is the soft gear design which seems to work well most of the time, but has “slipped” out of time on several test runs. I may revert to the welded steel gears before I am done since I still do not feel that purchasing expensive spur gears in this size range, just to risk having them destroyed if the design fails elsewhere, is an acceptable risk. Eventually I am sure that it will become necessary in order to achieve high speeds for extended periods of time.

The lighter weights (2 oz. including the pivot bushing) are actually performing better than expected as thrust becomes readily apparent in the 100 to 200 RPM range, although a better study of this is required.

The PIE 4.0 has only been bench tested so far, but it easily moves my bench around when it is clamped to the surface of it. Since the PIE 2.0 was just barely able to move the bench, I am encouraged to keep pushing forward with this high speed unit.

Comments about Comments, and Thank You

I have received a number of comments on YouTube, Bit Chute and by other means regarding the inefficiency of this design, and how other designs are soooo much more efficient and can produce these vast amounts of thrust, how this will never work and I am wasting my time chasing this dream.

I have been pointed towards many fine inventor’s works and have had private message conversations with some about some of these.

Here is the deal:

1- I am going to pursue this to some sort of conclusion, it will either be successful or not.

2- There are those who want this stopped.

3- There are others who think there is a better way but have not built a prototype.

4- There are those who don’t give a crap but like to make fun of other’s efforts.

5- There is always “self doubt” when trudging through the swamp of the unknown.

6- Do not try to force your opinions on me and I will not try to force mine on you.

6- Tell me it can’t be done and watch me go, but do not get in the way.

I was going to post specifics of this here, but I will not. I respect everyone’s opinions even though I may not agree with them.

Please be respectful and comment any ideas you have, they will be respected in like manner.

One last thought today, “Thank You For Your Interest So Far… More To Come Soon!!!”

New Announcements, Global Collaboration, and “PIETECH Electric Propulsion”:

Announcement:

Announcing “PIETECH Electric Propulsion”:

It has been a couple of weeks since my last post, but I do not want anyone to think I am not actively pursuing this quest for universal electric propulsion. The Grassroots Mechanic Movement continues the “Open Source” mission to see this technology advance and freely share information. The Grassroots Mechanic Movement is also in a well controlled growth period which will be branching out creating a somewhat separate entity which will be the “industrial development” branch known as “PIETECH Electric Propulsion” which still needs a logo.

Everything here on The Grassroots Mechanic Movement blog remains free and Open Source always, but PIETECH Electric Propulsion is going to allow the PIE technology to expand into the industrial mainstream as this still-infant technology grows and matures.

Current Work:

Currently I am continuing the R&D work necessary to advance the technology of the PIEs 1 & 2, and I am working towards a higher-speed PIE system that should be capable of continuous run speeds of 800 to 2000 RPMs.

I am also collaborating with other researchers around the world who are working toward a similar goal of cheap, clean, electric propulsion for vehicles of different types. This dynamic research is advancing well and will be announced when those independent researchers choose to allow the release of information (their work, their choice).

I am currently working on an instruction manual for those wanting to build a PIE 1.0 and/or 2.0. This will include specs, dimensions, building techniques, photos, reference materials, and hopefully links to videos. Although this tech is open source, I do believe that there are those who are very serious about building and would benefit from detailed instructions. Any proceeds from manual sales will directly help finance PIETECH research. I am hoping to have this material available by the end of 2020.

Review:

Let’s review where we stand in the “public” development of this technology. I say “public” because it has come to light that these types of tech have been used in satellites since sometime in the early 1960s, but it was just recently declassified… Maybe because of Space-X?

1- We have proven the theories of inertial propulsion are viable, as have others such as Steve Hampton and Mike Gamble neither of whom have I had any contact with at this time.

2- We have also proven the PIE design to be inexpensively reproducible.

3- We have obtained measurable results when used as an electric hybrid power source in a motor vehicle.

4- We have proven that there is no need for a counter-rotating assembly in the low-speed PIE drives.

5- We have proven that rotational speed and timing have a dramatic effect on the amount of thrust (maybe more important than the amount of weight?).

6- We have seen, measured, and proven the effects of both “time” and “timing” within the operation of the PIE. Time somewhat analogous with RPMs and timing is a given physical position within a time frame.

Current Developmental Position:

Now that we have “done it” by proving the concept beyond any doubt. It is time to design a way to put it to use. This means designing a smaller yet more powerful system that delivers clean, stable, and (hopefully) quiet thrust for common use in vehicles.

It has been publicly stated by experts (and I quote one of them) that this type of technology “…will never blast us into space…”, but the same PhD who publicly stated that would not acknowledge the potential usefulness as an electric drive for terrestrial vehicles (wheeled or otherwise). But the advances made in my lab (and others), working on a shoestring budget, and in less than a years’ time, seem to indicate the possible fallacy of that statement.

I BELIEVE that if we work together and collaborate as a community of people, each with his or her own individual skill sets, we can achieve great things!

Some will be mathematicians, while others have great mechanical prowess, and yet others may simply enjoy working on individual components of a larger system. PhD’s and dropouts, mechanics and accountants, pilots and hermits, all working together in harmony toward a greater goal. Impossible? Maybe. Worth trying? Definitely!

When I can foresee components from different systems being used in an assembly together, I feel that I am looking at the future for PIETECH, Dean Drives, Cooke Drives, Gyro Build and others!

Coming Next: The High Speed PIETECH system and Continuing PIE 2.0 Testing…

Volume 2, Page 14, Re-Phasing the PIE 2.0 and Ground-Test #2 – SUCCESS!!!:

Re-phasing for Performance

Since the PIE 2.0 did not perform as well as expected on the “self-propulsion” portion of testing, it was removed from the pallet for rework on the work bench. The phasing of the upper and lower wheels is the primary area to be reworked as the possible answer to its poor performance.

The PIE 2.0 was not built for easy phase adjustments, so the rework included the removal of all planet gears and axles. The rework is a re-phase of the wheels from a 90-degree offset to a 0-degree offset.

It would be much better to change the phase offset in smaller increments (say 10, 20 or even 40) but since this is the way already built into the design, this is how it is being done.

Fast Forward a Couple of Days Later and “Ground Test #2”…

That has done it! The re-phasing has made significant improvements in the quest for “self-propulsion”! It will now work its way across the garage floor under its own power with nothing driving the wheels!

The upper planet gears and the lower ones now share the same axles, and the wheeled trolley has been made robust with a tubular steel frame and metal bearings as wheels.

I am posting 4 self-propulsion videos to YouTube and BitChute to get maximum viewer coverage and get the information out to everyone.

Regarding subject of re-phasing:

There is a chain sprocket on both wheels and that could be used to drive each wheel independently. A drive chain to each wheel, and the chain can be switched tooth by tooth or the drive sprocket(s) can be made adjustable. A split jackshaft with an adjustment mechanism could be utilized to perform phase adjustments “on the fly” without shutting the PIE down.

More to come soon…