Takeoff-Toolhead:
10x the cooling of standard Voron toolheads
Support for Voron and Monolith motion systems, allowing peak performance gains and selling to all Voron motion ecosystem
Less weight than standard Voron toolheads while being metal
No reduction in build volume
Fewer parts to fail thanks to conduction capable hotends
Only toolhead on the market that supports the tension specification of Gates 2MGT 9mm GT3 belts
Splendacross:
Most size-efficient cross gantry kinematic printer developed with 140mm extra size of buildspace
Utilizes FDM, SLM, CNC, and laser cutting machining processes to maximize strength, cost, sizing, and lack of post-processing
Uses boombox bowden extruder, kevlar sleeving, and a prototype hotend, allowing large flow rates and smaller pressure advance values than typical bowden extruders
Uses offset backers, optimizing strength and the center of mass of the toolhead + gantries
Ground-up design by me
Designed around the capability of 120 °C chamber temperatures
Scalable up to 300mm build volume
Lite Pro SLiM Repack:
Weighs .5g less than Bondtech’s SLS casing while being aluminum
Stronger than the initial casing
Integrated option available to use a more powerful NEMA17 motor instead of NEMA14
Fully developed and designed by me
SLM Sherpa Micro:
All metal design for strength and rigidity that will last
Fully redrawn in Fusion 360 based on the initial Sherpa micro RC2 extruder, allowing quick edits for me or others
Uses a PEEK insert path that allows perfect filament constraint to help with flexible filaments
Allows 10 t- 6 t extruder motors for those not wanting to upgrade to 6t motors for more torque capability
Developed with feedback by Anlin, Sherpa Extruder designer
Tubes Bedslinger:
An all-metal Cartesian kinematics bed slinger with 4WD Y
Utilizes SLM and laser cutting machining processes to maximize strength, cost, sizing, center of mass, and lack of post-processing
Supports worm gear drives and belted reduction gears for the z axis.
Uses boombox bowden extruder, kevlar sleeving, and chube hotend, allowing large flow rates and smaller pressure advance values than typical bowden extruders
Support for the LH Stinger Carbon Fiber Bed or a custom-made Graphite magnetic bed for high chamber temps
Designed around the capability of 140°C chamber temperatures
GA Worm Gear Extruder:
fixed idler setup using a m3 screw, nut and washers that allows it to have the filament squish adjusted unlike traditional fixed gear extruders
Peek tubing path for perfect filament constraint for flexible printing, as well as lowered thermal transfer to filament with less wear than PTFE
Large filament driving gears of 15mm to maximize print quality
30:1 gear ratio matched to the filament driving diameters and LDO 20mm motor torque curve for optimal pushing power
Same mounting pattern as DFA, with similar overall size to be a direct swap
