DIY fine dust quad cyclone (stage 2) for ~ 80€

thingiverse

This is the second stage of my **affordable and simple DIY dual-stage dust cyclone project** . [Click here to visit the first stage](https://www.thingiverse.com/thing:3669095). To be honest, I estimate that for many use cases stage one is already "good enough" and it has a far better price to performance ratio than this stage two. So you might start out using stage one and then find out how much dust still ends up in your precious vacuum filters. In my experience, practically no coarse dust and about 5% of the fine dust gets through which is still enough to clog the filters over time. Stage 2 comes to the rescue! Technically this design should achieve a better precipitation than stage one by using smaller tube diameters, which lead to an accelerated airflow. The faster airspeed through smaller cyclone radii should, in turn, increase the circular forces on the dust particles that cause them to hit the walls, slow down and drop inside the cyclone. In order not to hamper suction airflow too much, the design uses four cyclones running in parallel, achieving an effective airflow equivalent to a 50mm tube. ### What you need: * 4 x [Chinese aluminum cyclones](https://www.ebay.com/itm/283628025065) from eBay. Yes... you could print them yourself, too. But these critters are made of metal and to print out four like them would NOT be easy and cost a lot of filament and time. Given the cost of ~55€, I reckoned I could use my time more efficiently than redoing what is already available at reasonable cost. * 1 x a 30 liters hobbock with 33cm diameter ([I bought this one](https://www.ebay.com/itm/170925876047)) for 20€. It may be worth mentioning that this design should be mountable on any container with a flat top that features an unobstructed circular area with a diameter of at least 30cm. * max. 200-250g of filament (PLA will do, PETG or ABS are probably more durable) * A few grams of TPU or - if you have none or can't print that - some silicone sealant instead. * Some [PTFE grease](https://www.amazon.de/dp/B005C99C5I) is strongly recommended * A marking pen ### Building steps: The pictures of this thing are lined up to represent the building steps below. 1. Print the intake part first. If you are using an FDM (aka filament) printer, use the STL version that has "FDM" in the filename and **read the printing instructions below!** 2. Once you have finished the intake, plug all four cyclones into the intake like shown in the 5th picture. Make sure they are properly aligned straight to the surface of the bin lid in which they will sit later. Also take care that all of them go all the way into their respective opening. Use a bit of PTFE grease and carefully help them go in - using too much force will likely break your tubes. 3. Print four of the "hole placement helper" things. Put them around the four cyclones from below so that their arms meet in the middle. Use a junk chip of PLA, wood or cardboard and glue to connect them. Take your time and wait until the glue has cured completely! 4. Remove the placement helper construction from the cyclones and place it on the lid of the hobbock like shown in picture #7. 5. Use the marking pen to mark the correct position of the exhaust part. 6. Now print the exhaust part. Again, if you are using a filament printer, use the STL with "FDM" in its name and **read the printing instructions below!**. There also is a section to read on removing the FDM support socket! 7. If you did everything right, the exhaust should fit on top with a little wiggling and rubbing. It can be a good idea to use one of the cyclones as a tool to push and turn and widen all sleeves so that they fit properly. Again, I recommend the use of PTFE grease. 8. Once all pieces have found their place you can use screws on the cyclone screw-holes or apply some silicone to achieve a tight fit of the cyclones to the lid. The intake and exhaust opening diameters are 60mm. There is an additional 25° angled adapter provided in the downloads. Please browse my other things to find proper adaptors for suction hoses. The last picture shows cyclone bins of stage one and two working together.