Dual drive geared extruder
Release status: working
Description | A dual drive geared extruder made with savaged gears.
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Introduction
The Flow Rate of an extruder is one of the main issues to reach high print speeds. Trying to push the limits of flow rate in direct-drive extruders leads to motor stall or filament smashing. A geared extruder, as Wade's, increases the torque available to the hobbed gear. The motor is less prone to stall, but smashing filament is still an issue. With two hobbed gears pushing the filament, the force is distributed over larger area, so I started to try some projects that use dual gear extrusion. Up to now I found two designs of double-geared extruders that work nicely, but I decided to develop another one with minor changes. This project describes a geared dual drive made with savaged gears from an old laser printer.
Overview
[1] shows a large assortment of dual drive extruder designs. Those extruders have one hobbed drive connected to the motor shaft and other hobbed drive conducted by a spring loaded lever, as shown in the figure below. Two gears joined to the drivers are responsible for the dual drive characteristic: the filament is griped in two sides at same time.
But there are some objections to this design. The lever drive press the filament against the motor drive and this causes a radial force applied to the motor shaft. Motors in general are projected to exert only torque and do not cope well with radial forces. The company Applied Motion Products[2] have an excellent documentation with lots of specs about the subject. In this document it is recommended that the maximum radial force applied to a Nema 17 motor shaft ranges from 20 to 30 N. A spring used in an extruder's lever can easily exert a force of 10 N. The distances between the spring, pivot and drive can result in a gain of momentum that generates forces well above 30 N over the motor shaft.