DLD Filament Buffer for MMU

prusaprinters

This is a “ground-up” model inspired by "The Wedge RMU Mk3" Buffer. https://filamentbuffer.co.uk/ I did a lot of research on buffer systems and found the approach taken by their design was almost exactly the form factor I wanted. I didn't want to pay for stl's that I couldn't natively and readily modify in SolidWorks. So I made my own version.Many neat attributes in this design:Lofted filament feed pathways in and out for near frictionless overlap as the filament enters and exits the wheels used a metal draw latch from McMaster-Carr for added durability https://www.mcmaster.com/1794A51/This Draw Latch is also on Alibaba https://www.alibaba.com/product-detail/TS-163-3-Cash-Dispensers-Medical_60399012262.html?spm=a2700used the common PC4-M10 pneumatic couplings. I found a 20 pack on amazon. The tube ends stop at the end of the coupling since the lofted clearance holes were added. Female threads were added to the models to accommodate.Mounting provisions accessible from all sides for flexibility in custom mounting bracket solutionsfinger-pick button provisions added to cap sides for a little grip when openingUpper mounting bracket has a center hole large enough for a USB cable to pass through and connect to main board (MK3 ). Holes available for the MMU Cable as well.all parts are 3d printable, including the bearing shafts and t-slot nuts.Sides are ribbed vertically, which aside from aesthetics, seem to aid in the printing by reducing a bit of infill time.Thread forming screws were used on the bearing shaft ends and draw latchBearing shaft ends https://www.mcmaster.com/99461A825/Metal Draw Latch https://www.mcmaster.com/99461A173/ Square M3x.5 nuts are used for the upper mounting bracket and, depending on the manufacturing tolerance, will lightly friction fit into the slots. If your using the up-feed tube fittings on the side, I've added a tube management feature for routingI believe this is slightly narrower and the width is larger to allow for increased wheel diameter and bend radius of the filament. I found in an earlier iteration that some PLA material would break under strainWheels are V-Shaped for some additional filament guidance/clearance There are 2 different buffer caps. one is a single row of fittings and the other is dual for setups that mount the spools above the printer. The .step assembly contains the dual version.A note on mounting bracket fasteners, they are the same for MK3 and MK4  for attachment to the buffer, however, I cannot confirm the MK4 Top Mounting Bracket fastener lengths needed to attach to the MK4 frame at this time. you may need 3 of the 12mm length. Perhaps someone can comment with the length needed.Materials: Fasteners: (4) #3 x 3/8" thread forming Phillips head screwhttps://www.mcmaster.com/99461A825/(4) #2 x ¼" thread forming Phillips head screwhttps://www.mcmaster.com/99461A173/(4) M3x0.5 x 10 mm socket head cap screwNOTE: will need 3 additional for mounting upper bracket to printer framehttps://www.mcmaster.com/91292A113/(4) M3x0.5 x 12 mm socket head cap screwhttps://www.mcmaster.com/91292A114/(2) M3x0.5 x 14 mm socket head cap screwhttps://www.mcmaster.com/91292A027/(2) M3x0.5 mm square nutNOTE: design has provisions for 8 nuts, only 2 are needed for the provided upper mounting bracket designhttps://www.mcmaster.com/97258A101/(8) M3x0.5 mm hex nuthttps://www.mcmaster.com/91828A211/Bearings:(5) 608-2Z shielded ball bearinghttps://www.mcmaster.com/5972K501/NOTE: search for bearings that have a low rotation resistance, some of the bearings I found were packed with thicker/stiffer greaseFittings:(10) the common PC4-M10 pneumatic couplings, I found packs of 10 and 20 on amazonDraw Latch:(1) Tight-Hold Draw Latchhttps://www.mcmaster.com/1794A51/Also on Alibaba: https://www.alibaba.com/product-detail/TS-163-3-Cash-Dispensers-Medical_60399012262.html?spm=a2700 Printing Notes:I printed all body and cap parts in PLA, All other parts PETG. I found the body parts containing the hex holes were a challenge in PETG due to bridging issues. I used default printing profiles in Prusaslicer. I also added a 5mm brim to all vertical body segments for adhesion during print.I printed the bearing shafts vertically in close proximity to each other with a large brim for support. the shaft .step model is sized at 8.1mm to compensate for printing undersized, I then lightly sanded them for a great slip fit.These are the orientations for the caps that worked the best.I used .4mm Nozzle with .2mm layer height. 3 perimeters with 5 top and bottom layers on all parts. 3-4 perimeters should be used for the holes that take thread forming screws. supports only needed for the T-slot Nuts and Top Buffer mounting brackets (both MK3 and MK4 versions) Update: 8/8/24 - MK3 and MK4 90° Side Mount Brackets in STEP, STL, and SW2023 formatsFile Names: MK3 Buffer Top Bracket - 90 degree side mountMK3 Buffer Bottom Bracket - 90 degree side mountMK4 Buffer Top Bracket - 90 degree side mountMK4 Buffer Bottom Bracket - 90 degree side mount 90° MK4 Mounting Brackets MK3 and MK4 Rear Mount BracketsFile Names:MK3 Buffer Top Bracket - Rear MountMK3 Buffer Bottom Bracket - Rear MountMK4 Buffer Top Bracket - Rear Mount MK4 Buffer Bottom Bracket - Rear Mount PC4-M10 PTFE Tube Collar New Part added for use with the PC4-M10 Pneumatic Couplings pictured in the photos. It was discovered that this fitting does not fully support the PTFE tube end, allowing misalignment between the tube hole and the hole in the printed parts. If the PTFE tube is routed with tight radii into the fitting, this can cause filament to be pinched slightly, resulting in a high friction point. If using this fitting, print the collar and place it in the counterbore to provide proper tube alignment.I've attached this in .step and .stl, It's modeled slightly oversized in ID and OD so that it printed dimensionally correct for me. But scale as needed.