Dyson Powered Cyclone Separator Vacuum

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FYI: The Dyson Vacuum cleaner was invented because James Dyson created a separation filter for the extraction in the ball barrow injection moulding machine shop. He got fed up of the generic filters clogging up.
So the machine you are making out of Dyson vacuums is why the Dyson vacuum was invented in the first place.
Source: I used to work for Dyson in Malmsbury in the 90's.

"Let's say your hose is smaller than mine, and it probably is..." 😂😂🤣🤣

explaining the air path with the cut in half dyson was amazing!! big props

What most people don’t mention with onshape is that with the free account everything you make is publicly available. You will have a professional account if you have the option to keep it private. Viewers with a free account won’t have that option, everything is public.

you inspired me to build my own DIY paramotor and i went to fly it these days first time! thanks daniel

Loving the different content, of course aviation is fun but seeing all the engineering feats play into different fields is hella entertaining

13:15 Never knew that Dyson's vacuum design actually was functional like how you described it! Kinda makes me want to buy one after your explanation 😅

Thanks. Understanding the 2-stage process is key to understanding the Dyson. Other UA-camrs don't get it.

Please do more of the cyclone experiments! Love them :) if I would have the skills and tools like you I would design all day different layouts to find the perfect cyclone design for wood dust which is low profile but max efficient :)

I feel like plasti-dip spray would work well for sealing 3d printed items, especially for boat hulls or things that need to be air tight

"You wouldn't be watching a video about a shop vac"
*Laughs in Technology Connections*

To retain the speed of the air and then separate the high pressure air stream from the particulate, add an internal "shell" shaped internal wall (with tiny holes at sparse tiny holes and more holes closer to the end), such that the air stream expands at an algorithmically fixed rate to pressure-match the exterior of a symmetrical cone inside placed over the inlet to the next stage.
The idea is to have a uniform pressure zone across the internal cone, and to have that pressure be maximally physically separate from zones of other pressure.
By minimizing the pressure differencials, the particulate will be physically unable to catch sufficient air currents to fight gravity.

No way! I was just marvelling the other day with my dad about how neat the mechanics of cyclone separators are, and your previous video came up in conversation.
Such a coincidence this drops on the same day.

IDEA: If the particles build up static, maybe they can be further manipulated into the buckets using the Lorentz force.

I've always wondered what a Dyson looked like inside. That was satisfying.

"I should probably ground this so it doesn't static discharge into the saw dust and blow up" is a concept I had never thought of before 😆 thank you for sharing!

@1:31 is one of the units my fathers company designed, fabricated, and installed at that plant. Neat!

That might be the best song I've heard from the Cyclone Separator Trap/Hip Hop Scene so far in 2023! ( 15:34 )

Cyclone separators aren't just used for cleaning. They have been used a lot in places where air is used to move particulate through pipes. They just get the stuff you are moving out of the airflow before it gets sucked into the fan, and deposit the stuff where you want it.

That slowmo is incredible. Nice work

Yeah, that thing REALLY needs to be grounded, especially if you're vacuuming up fine combustibles, last thing you want in there is a spark even at partial pressure. Grounding may also help the material fall into the trap

I'm an Onshape user because of you. I bought a 3d printer and now I'm making all sorts of pieces.

For the issue of dust not falling down, I would give the cyclone separator vertical walls (instead of the cone shape which pushes heavy particles upwards via centrifugal force). You'd need to position the exit that dumps the dust into the bucket on the side of the bottom plate, though. (It's position on the bucket lid doesn't really matter.) You don't want it too large in order to avoid stirring up the dust in the bucket, but you also need it to cover at least a small section of the wall where the heavy dust will accumulate.

I use your cyclone design all the time I have it on my shop vac its amazing for cleaning up drywall dust. using it has tripled the amount of time I can go before I have to knock the dust off the filter on the shop vac

I thought the little things at the top of the vacuums were completely aesthetics! It's quite cool that they actually have a purpose

the working dyson was a v6, and the cut in half one is eithera v7 or v8

Some industrial cyclone designs I've seen will reduce the air volume at the bottom using a solid cone inside the end, rather than by tapering down the walls. This seems to allow better settling and reduce clogs.

Add a longer tube in the center and take more video! I tried to use some Excel calculators our there to design mine. I struggled with what length to make that center tube. mine goes about halfway down the cone. I have no idea if my flow looks like yours at the top or not. I made a frame out of 2x4 and plywood for mine. Rolled a piece of acrylic for cone shape. I drew it in 3D and used a sheet meal program to flatten it. I used that flat patter on the acrylic to make the cone shape and teardrop inlet shape. Then I siliconed a 4" PVC pipe into it tangent to the largest inside diameter. That was trimmed flush inside then. It works, I get tons of dust spirals and very little gets through into my bag filter. Watching your video makes me want to redo it with 3D printed parts!

Need part two to the autonomous boat video!!!

Nice video! Cyclone separators pretty interesting. My home central vac system uses one, but to solve the filter issue it just exhausts to outside, so there's no filter to replace.

The reason shop vac's are noisy is the same reason they are so good at what they do. They have separate impellers for suction and motor cooling making it safe to suction water with them. Twice as many impellers plus a much more powerful motor and the fact that the cooling impeller's intake doesn't have to suck through 6 feet of hose and a giant expansion chamber that acts like a muffler so you get more of that raw 'blades chopping through air' sound. Household vacuums use the same air for suction and motor cooling. Its usually sucked into the impeller and the exhaust is vented around and through the motor on its way out of the vacuum so there is a lot more restriction to help smooth out those sound waves. If you were able to design a cover for the shop vac that vented both exhausts and the motors cooling intake outside through a window or something you could probably get rid of most of that noise.

4:17 you could have added inductor in series. Main property of conductor is that it doesnt allow sudden changes in current. So when you swith current would rise on a curve. Higher inductance, rises more slowly. You just take a thick enough wire and make a few turns until its good. This way you dont need a switch and its still dead simple

Makes me wanna CNC all night long. Genius

Hey I came up with a design of my own when I saw your first video. I’ve been using it a while now and it’s been fantastic

A foam muffler on the exhaust side can make a difference for the noise level. Look at Oneida dust separator muffler. It's just a foam cylinder inline with the exhaust port.

The funnel at the bottom is only there to collect the dust to the center. To improve performance increase the hight of the clilinder when the air spend more time and a larger area spinning the dust outward.

Tip for sucking up foam; put a bare copper wire from the top of the cyclone down to the dust bin in the center and wire it to ground, its going to make the dust not or very little charged ;)
i did that on my dust collection and it works really well, before i did that i could feel the static charge even on the outside when putting myhand close

There are a number of papers people have written on cyclone separators. I did some research into them a while back. A common design is the 1d3c (I think, might be getting the name wrong) where the cylinder section at the top is as tall as its diameter. The cone section is 3 times as tall as the cylinder diameter. I think the exit at the bottom was like 1/4 diameter and the top exit was about the same.

I have a super simple cyclone-less barrel with the air from the CNC machines fed into the top parallel with the walls of the barrel and the vacuum sucks up through the centre in the lid. It's very efficient even with polystyrene! I used it to empty all of the perlite from my kiln insulation without any dust going into the filter! It's shockingly efficient for such a simple design.
I find slower speeds air speeds work a lot better... high flow big bore low pressure

Wow. I've had one of these vacuums for years and always liked it, but this gives me a whole new appreciation for the design. I never knew that those pistony shapes on the outside were individual cyclone traps, or how they channeled down into the collection chambers. Dyson engineers should be proud!

2:49 Although Dyson’s “Cinetic” Technology got damn close!
Given it *seems* they have given up on it, you figuring out how to do *that* the next time you make something in this series would be AMAZING!

Our formula Student team designed an Oil cyclone.
To make it more effective, we made the inlet tangential with a quarter rotation of lead in, so the oil (particles) clings better to the outside.
Also the coneshaped bottom was formed with a spline, that pointed to a central point and was tangentual to a cylinder on the big end.
If you want to improve your disign, this is one possible and easy way to do it.

14:33 damn thats some serious vacuum technology. big up sir james dyson

15:05 We need slow-mo footage of this phenomenon, stat. I'm pretty sure that sawdust is jumping, sticking, and then there's a polarity reversal and it's actually jumping away again. Something sort of like a super high voltage oxford bell, maybe? That's cool.

This is surely one interesting video series. Dyson has some good ideas and one could always work on a sort of that design. There are indeed back pack vacuums.

I have a cyclone on my cnc, love it. cut carbon and wood for 3 years solid and no dust in shop vac.

Oh wait, so those small ones are the actual cyclones!
I took apart (completely) the Animal V6 in our home a few month earlier for cleaning and had no idea what are those "spouts".
Impressive.

You can google cyclone design guides and get the dimension ratios for each part. Your vacuum might improve if you follow them. Otherwise, good video. (",)

I think you'll have more success with a narrower cone. The tighter radius should increase the centripetal force and improve separation, with the steeper walls helping the particles to fall down.
You could maybe also try some vanes near the bottom to help direct the particles downwards, though this might disrupt the airflow too much.
I'd like to see a two stage system with very small cyclones similar to the Dyson, would be interesting to see how much it helps.

@15:16 - not that it matters much, but if you passed a Shark steamer over the opening of that container, you would knock that static down post haste. I use warm, moist breath to keep my fresh ground coffee from jumping out of the filter and sticking to the inside of the grinder container. I simply breath in to the opening of the grind cup before I pour it in to the melitta filter. No more hopping grounds.

Cool electrostatic effects in the bucket. I wonder if spraying the inside of the plastic parts (or using metal parts where feasible) would help eliminate the spark hazard?
Cutting foam would still probably produce a bunch of clingy foam bits, for that it might be interesting to add some of those static eliminators containing radioactive polonium-210. Any serious workshop should have a radioactive cyclone device!

What happens if you use conductive filament and connect the funnel to ground? will that reduce the static?

Boss, my OCD is kicking in.
4:32 thats an engine air filter, isnt it? Not a cabin air filter?

I don´t know if central vacs are common where you live, but they are resonable common here.
What it is is a tube network around the house with lids on a micro swich on. if any of the lids open, the vac starts.. Typically the handle and hose is quite long. So typically there is one or two outlet in the hallway, and that is sufficient to go all the way onto the corner in every room.
This could also be used to link up several machines.

You really should probably add support columns to the Cone that connect it's top to the lip of the lid, this thing looks one bad fall away from needing to be completely reconstructed

I used an ordinary vacuum cleaner while routing some oak. Took the hose off the router to get some other spills, I put my fingers over the hose end to mimick the tabs and notches preventing hose to stick and WoWZa! ...or rather Wow-ZAP! Got quite the electrostatic discharge that I felt even far up my arm!

I was waiting for the cyclone song the whole video :) glad to hear it again after so long

Liked the split-and-tell of the dyson's insides!

I really like that you smoothed the inside cone.

Didn't expect another vacuum video. Did enjoy the vacuum video.

I think you can speed up your cyclone if you do what they do with the industrial cyclones like the ones I have here at work. They put a big blower on the top but it's on an angle it's not in the centre of the vortex the intake is along the top Edge.

It was a pleasure meeting you at Open Sauce :) thanks for inspiring me

never before did i think i would watch a 16 minute video about vacuuming

Your cyclone separator videos are among my fav and how I discovered your amazing channel. Keep up the gray work

"I should probably do that " famous last words 😂😂😂

That song at the end? *chef’s kiss*

15:04 Static is not your best friend when it comes to cyclone separators. That is why Dyson has that fine particulate build up at times around the cyclones and even in the bin. Static cling. The hack for that is a cyclonic anti static particulate floating filter. I cut sections of a bounce sheet in small squares and throw that into the dust bin of my V11. Or on the uprights or Ball Dyson, put one bounce sheet or half into the bin. It does marvels and it actually keeps the passages cleaner and the cyclones cleaner plus it actually reduces the amount of dust on the Dyson turbine fans. It works amazing. Plus it keeps those pre motor filters cleaner and hepa filters. Use non scented bouce sheets. De static your canister and neutralize the particulate. Don't tell Dyson this 😂

Damn, your tools and camera equipment are a dream! You have every toy a man can wish for

If the inside of the cyclone were mildly electrically conductive and grounded (like what you'd expect ESD-safe tooling to have), would that reduce the static clinging effect?
Edit: a quick web search showed some spray-on urethane ESD sealant. Not sure how slippery a finish it would leave. It's like fifty bucks a can, oof.
Edit 2: seems there are ESD-safe acrylic sheets available, too, if particles are getting stuck to the lid. The spray ESD stuff claims to be clear though, so if it adheres to acrylic, maybe it would work, too.

i once went through the patents on cyclone separators for work. Multistage ones date back to the 1920s

You should add some spiraled indents on the inside of the cone part of the separator, sort of like the threads on a screw, to help force the particulate down as it spins and ensure that larger objects also get forced down and don't just spin around.

2:28 "And I glued it in place. "
You most definitely glued it in place 😂

Ya'know on those Factor meals, I picked up a Fresnel from the Dollar shop in my area... Makes me think about making one of those solar cookers!

I work at a place with huge industrial CNCs, and the remarks about foam made me think:
When we mill resin and dense foams, the dust and debris only fill up a few bags but they weigh a ton. When we mill styrofoam, we fill up a dumpster full of trash bags filled to capacity.
The dust collector systems we have make this horribly loud noise about 1.5 seconds after they start spinning up, after that it's white noise. So whenever I'm on cleanup duty near them, I always wear earplugs. We don't use the dust collectors for styrofoam debris, as I'm pretty sure they'll go straight to the final stage and clog whatever is in front of the thing that moves the air.

note that the difference in size of the cyclones works on the different scale debris- smaller diameter cyclone separates smaller particles - increasing number gives the same flow rate as the single larger unit..

I am SO happy to hear the Cyclone song again.....
The best.

2:04 You can make the design even easier to edit by having the hose diameter be a variable and putting it at the top of the feature list

If you're above 90F, definitely be wary of fires. I used to work in TX cabinet shops, and saw several spontaneous fires over the years

0:28 you note the imperfection causing a heck of a lot of issues. If you want to 3D print one of these babies, and use it, you have to sand the insides smooth. That, or use ABS and vapor smooth it. The efficiency goes out the window, the rougher the surface is.

Have you considered using the same technique that is used in Laser Printers to temporally adhere the super fine toner to the paper before fusing? The paper is usually negatively charged which attracts the positively charged toner to it. You might be able to do something similar with your bucket, making it positively charged which would help trap the finer dust particles in it as most fine dust naturally becomes negatively charged.

That flow at the end f'n slaps yo

i think this design would really benefit from some buttresses from the lids to the main cone and then a second from the acrylic lid to the filter cone, to stop all the wobbling. definitely would cut down on light reaching the acrylic so it makes it harder to video but i think it would help prevent the lid breaking when everything tips over

2:05 "This is super useful, because, let's say your hose is smaller than mine, which it probably is"
Damn

Multi stage would be the best bet. Having a misting stage at the end, should get the last little bits, while cooling the air as it comes out. In the LA area rn. Heat is on the mind alot...

If you want it to be more compact: print yourself the Sysclone for Festool Systainer. This is stackable with alle other Systainer components and works well.

I really loved the first video you did on these and this video was great as well...and we got a little song at the end... Awesome 👍👍

To suppress the sparking you can use a capacitor in parallel with the switch.

Would smoothing the interior of the cyclones help?

"If your hose is smaller than mine, which it probably is..."
🤣

You could maybe try a little internal winglet just after the intake from the vacuum hose to redirect everything coming in, down, but still in a spiral.

8:58 don't waste your time with Acrylic, always use Polycarbonate.
Its a little more money but way stronger and doesn't crack, it is actually considered to literally be bulletproof 😉

The static charges build up is INSANE !
Might you do something with it ?

Static electric charges may be the cause of your fine dust problem. If made of conductive materials and grounded for operator safety, it might work perfectly. At my former work using non-conductive hoses for dust collection would rock your world with serious shocks.

Adding diy or purchase comparison at the end of the video will make much more sense for building these things.

If you use a high flow air filter (K&N or similar) the performance of your vacuum will be great! And they are reusable!

We come for the fun science and stay for the music, it's appreciated and always slaps XD

For very low density particulate (foam dust), I wonder if it would be helpful to include some kind of ionization effect - thinking it might make the collected dust easier to handle.

I wonder if the tube that introduces the vacuum into the cone were extended downward further into the cone, what difference that would make? Also, I don't understand why the wood dust/chips would not spin faster as they went further down the cone (into the smaller end) due to angular momentum being conserved.

I wonder why I never see a binliner in the dust buckets. I tried it and it works great to clean out the bucket as long as the space between the bucket and the binliner is airtight.