*Edit* - Updated Jan 28th 2018 - The Original STL files for MasterSpool had a few problems for some people - the final export was a little messed up, sorry about that.
I have now simplified the design and added the new V2 files up on YouMagine and Thingiverse - Links are at the bottom of this blog post - thanks.
We, as a community and industry, are making good progress on the use of sustainable filament spools. Cardboard is slowly becoming more common and even recycled plastic or eco-friendly spools are starting to be used.
Left to right - ReForm by FormFutura / 'MasterSpool' / Standard plastic PC spool / Cardboard by Proto-Pasta
For quite some years I have also wished for a no-spool based filament delivery system, MasterSpool could be a way to achieve this.
A filament roll of ColorFabb nGen - 750g of filament and another ~280g of almost 'bulletproof' Polycarbonate spool.
The MasterSpool standard is a concept idea for a way to deliver 3D printing filament to users without a spool.
The main concept is for manufacturers to provide a material refill system to users who can then use their own 'MasterSpool' in their 3D printer.
Here is a quick overview video of the MasterSpool proposal showing how it works -
More of my video's over on Youtube here - all in HD.
I had the idea for MasterSpool when I spotted a small two piece filament spool over on Thingiverse by User 'Dingoboy71' The original 2-piece Filament Spool by Dingoboy71 can be found over on Thingiverse - https://www.thingiverse.com/thing:1738730
Dingiboy71 improved on a spool model from a designer called Tamel55 - he modified the idea for his '2-piece Filament Spool by Dingoboy71' I used this model as the basis for the MasterSpool prototype. Since then it's further evolved into Version 4 (as of 14th Feb 2018).
Benefits should include a lower weight of transportation - Empty plastic spools often weigh around 250-300 grams. Smaller and less packaging for material and no empty spools for the end user to recycle or dispose of.
Most often, users of 3D printers do not want to use un-spooled filament. Winding filament onto a spool is also not a good idea, because it can encourage breaking and tangles. It also takes a lot of time for the user.
Having a 'cartridge' of wound filament that can be simply loaded onto a two-part spool allows for super quick setup and use of materials.
The two part spool, could be traditionally manufactured, to a defined standard - similar to what we already use now - ~200mm diameter spools with 750g or 1kg capacity.
The MasterSpool could be 3D printed - it easily fits on a LulzBot TAZ6, but it will also print on a standard Prusa i3 MK2/3
The 'MasterSpool' could also be 3D printed, customized and generally tweaked to accommodate various 3D printers.
Ideally a single MasterSpool standard would be used - then we may also start seeing more 3D printer manufacturers allow a defined space for these spools. At the moment far too many different spool sizes and mounting methods are available for a machine manufacturer to choose one single method of filament spool management.
Their will be problems that filament manufacturers will have to overcome to do this -
Wind spools of filament onto a cardboard or stiff paper form - with an ability to secure the coil in place after winding - maybe using tie-wraps or adhesive banding.
Remove the wrapped coil and pack into a simple box or vacuum sealed bag for shipment.
Manufacturers will still want to brand the filament coils and maybe add key information like print temperatures or material properties etc. This can be achieved on the card/paper support for the filament coil.
This was my very simple cardboard template to hold the coil - it works just fine, tie-wraps / zip-ties help secure the coil - a sealed vacuum bag would also be a perfect way to ensure the coil stays intact before use.
Hopefully the manufacture of a coil without a spool is possible to work out. I can see that vacuum sealing the coil would really help keep it in good condition for transport and have the usual bonus of protecting from moisture etc.
The concept 'MasterSpool' design files can be found over on Thingiverse and YouMagine
I tested the new V2 files in various slicing programs - so you should not have any issues 3D printing the files.
Quite a few people asked about the critical dimensions for MasterSpool (750g version) - so here they are -
Outer spool diameter is 202mm
The inner ring diameter for the filament coil is 102mm
The mounting hole size is 52.5mm
For the 750g Spool the width of the filament coil is 46.7mm
For a 1Kg or 500g filament coil the width (46.7mm) is the dimension you would change to make a different, but compatible MasterSpool for other weights (that will not stay true for very heavy filaments like copper, bronze etc.)
If you are a user, and you have feedback or want to get involved, then talk to your current filament supplier, see if they are interested in an idea like this.
And if you have any feedback at all, do leave a message, comment or discuss it with me over on Twitter. Feel free to use the hashtag #MasterSpool - lets see if this idea has a future for 3D printing.
Thanks for reading, see you next time.
Please join me on Twitter @RichRap3D
My profile and posts over on Google+
Files and designs shared on GitHub
Files and designs shared on Repables
My Youtube channel is here, all 3D Printing and Hi-Def video content.