3D Systems CubePro is a professional 3D printer designed for rapid prototyping and production of high-quality parts. Ideal for engineers, designers, and manufacturers, the CubePro features dual extrusion, a heated build chamber, and a large build volume. It is capable of printing in a wide range of materials, including PLA, ABS, nylon, and polycarbonate. With its user-friendly software and intuitive touchscreen interface, the CubePro is easy to operate and maintain, making it a great choice for both novice and experienced users.
UNJAMMING A CUBEPRO EXTRUDER
Tools required:
o 2.5 mm Hex screwdriver
o T10 Torx driver
o Pliers
o Side cutters
First, switch the power off. Turn machine 180 degrees, so the back panel faces you.
Remove the top lid, then disconnect the sensor loom from the sensor PCB
Disconnect sensor loom from breakout board
Disconnect jet from sensor PCB
Disconnect extruder loom from sensor PCB
Use 2.5mm Hex screwdriver provided in the toolbox to remove sensor PCB. Undo 2 M3x5 screws
shown.
Remove sensor PCB from extruder drive body being careful not to damage the filament sensor (if
equipped)
Carefully pull the feeding tube from tube block to access the filament
Carefully pull the filament from extruder in one smooth move without applying excessive
Force
The section of filament will look like that shown in the picture below:
Cut the filament above the section removed from extruder
Using flat pliers provided with the toolbox, remove the idler wheel assembly from extruder
drive assembly. Pull very carefully pinching on the end of idler wheel, being careful not to
touch or damage the sensor disk or sensor sticker.
Loosen both bolts holding the breakout board using the 2.5 mm Hex driver
Using T10 driver provided with the toolbox, loosen the clamp holding the jet. Do not remove the
screw.
Remove the jet from the extruder drive. There is a notch on the nozzle that needs to meet up with
the slot in the extruder. Spin the nozzle while pulling slightly until you feel it meet the opening. You
will feel some resistance; this is normal, as you will need to break the filament buckled in the
extruder. After removing, the jet will look like shown below:
Using side cutters provided with the toolbox, cut the filament protruding from cooling tube of the
jet. Aim to cut it as deep inside the cooling tube as possible, as it will help to purge the filament
through the jet later on.
Remove buckled filament from within the extruder drive using flat end pliers. Make sure there is no
filament left inside. Manually turn the drive wheel to make sure there is no filament left wound on
the wheel.
Replace the idler wheel assembly, being careful not to damage the sensor disk or sensor sticker.
Before replacing sensor PCB, if your sensor board is equipped with a filament sensor make sure the
filament sensor is properly installed and aligned in the connectors. Make sure the filament sensor
installed in the recess inside the block and PCB is flush with the standoffs. If it is not the case, make
sure that everything is aligned properly. Use flat end pliers to hold the screws while fixing the PCB
to extruder drive.
Note: Not all sensor boards will have a filament sensor (circled above). Machines shipped from 3D Systems
after February 2016 do not require a filament sensor
Check jet’s loom and position of thermocouple as shown:
Install the jet back into the extruder drive. Level the jets and check the check Z gap as shown starting
on page 62 of the user guide. Disconnect head loom from the breakout board to avoid damaging the
components while levelling the jets. There will be a warning message on the screen. This can be
ignored for now. Replace the head loom connector when finished and reinstall the breakout board
using the two 2.5 mm Hex screws.
Connect all looms back to sensor PCB and breakout board according to their markings.
Using the Control Jets function, purge the filament using 260 degrees C and 1(!) RPM. The speed
needs to be slow to allow the filament left in the jet to soak heat to be able to move inside the jet.
END
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