Current Machine Status
Borrowed by mirage335 for repairs. Will return Saturday.
- Emergency Stop. Be ready to unplug USB cable when beginning X/Y/Z motion.
- Go through the routine maintenance list as necessary, especially the safety section.
- Check which bed you are using. Bare glass highly recommended for quality, extreme warp prevention (hot adhesion), and easy part removal (cold release). Polycarbonate bed also available.
- Turn on power strip. Switch on the ATX PSU behind the machine.
- Open pronterface. Connect to the printer. Check box "Watch" to see temperature readings. You should see about 20C on all temperature sensors, and basic stats in the console window. Optionally, set heated bed to 60C for bare glass. If you don't do this now, the printer will wait for the bed to heat up later.
- Load an STL model onto the dedicated laptop for printing. If you haven't made one, download one from Thingiverse.
- Clean the STL model. Load file in nefabb, click the red "+", "Automatic repair", "Default repair", "Apply repair", "Yes" - remove old part. Finally, export part as STL, repairing more errors if prompted. Netfabb can also be used to align a particular face on the 3D model to the print bed.
- Open Slic3r. Drag your STL file from a file manager onto the "Drag your objects here" box in Slic3r.
- "Print settings: Cheap" "Filament: HacDC" "Printer: HacDC" . Chose "Print settings: Solid" if you can justify extra plastic for ultra-smooth and ultra-strong parts.
- Export G-Code in Slic3r.
- Wait for Slic3r to finish. In pronterface, load the G-Code file you have created. A preview of the first layer should appear in the middle of Pronterface. You can click on the preview and walk through the layers by holding shift and scrolling on the trackpad. In the console (not the bottom bar), an accurate time estimate for the print should also appear.
- Once again, make sure you can push X and Y axes to their endstop switches without bumping anything. Also make sure there is not more than 1mm of ooze sticking out of the nozzle to avoid crashing the extruder into the bed.
- Click the "print" button.
- Wait for bed to cool. Part should lift right off the bed once cool. If not, apply gentle hammer taps with sharp pointy tool to the base of your object. After a few gentle taps in various places, it will pop off the bed cleanly. Carefully, please avoid chipping or cracking the glass.
- Please update the PrusaMendel Operators Log.
Routine Maintenance - ALWAYS CHECK
- Power Supply. NEVER leave ATX power supply on after leaving HacDC, it gets hot.
- X/Y endstops. Manually push X/Y axes to test the switches. Make sure the extruder and bed are positioned not to bump anything when homing.
- Z-axis endstop. Visually check that it will trigger before severe crash into print bed. Also trim excess cold plastic ooze on the nozzle, and remove ooze from bed, if necessary. The blue wire cutters are typically the best tool for this.
- Lose bolts. In particular, check the endstop bolts.
- Loose wires. Short circuits cause severe damage.
- Bare glass bed must be extremely clean. If bed is level to within 0.25mm, and plastic is not sticking, it needs cleaning. Take glass to sink, apply dishwashing soap, sponge, and elbow grease.
- Blue paper tape may be used on polycarbonate or glass bed. Surface adhesion is more predictable. Downsides include the need to occasionally replace the paper tape, and lack of cold release.
- Polycarbonate bed should be kept flat, without excessive protrusions. Scrape excess plastic off, and trim deep cuts.
- First-layer depth. Bare glass bed requires exactly 0.2mm between nozzle and bed. Polycarbonate and paper tape beds tolerate direct contact, allowing nozzle to be driven 0.4mm into the bed. In pronterface, home the Z-axis, then manually jog 0.1mm to verify these distances.
- Z-axis height. Z-axis endstop position sets depth for entire bed. The margin for error is minuscule, ~0.1mm. Too close, and part quality will suffer substantially. Too far, and adhesion will be lost, particularly if the bed is not exactly level.
- Z-axis level. The dual threaded rods must be kept aligned.
- Bed leveling. This is somewhat complicated process, involving a 3D printed and heat-polished leveling mat. See PrusaMendel_Print_Surface .
You are adding to the workload on a shared machine. Please be gentle.
- NEVER leave ATX power supply on after leaving HacDC, it gets hot.
- NEVER heat the bed without temperature sensor in place.
- Avoid moving X-Axis >195mm from home position.
- Avoid ramming the hot-end into the screw protruding at far-right corner of the bed.
- Printing faster than 45mm/s incurs excessive stress, frequent maintenance, and cost. In particular, the hot end may be damaged.
- Leaving hot end on without extruding (ie. pooling hot plastic) for more than a few minutes can damage it.
- Removing parts from glass bed before cooling completes, or getting fingers on the bed leaves residue and necessitates cleaning.
- Heating raw polycarbonate bed above 45C will give extreme adhesion. Even if you can remove your part, you will likely warp the bed doing so.
Free of charge for dues-paying members using reasonable quantities of filament (<0.5kG or <50m per month average).
Newcomers to the space are freely invited to lightly use the 3D printer use for small projects, or education.
Non-members regularly using the 3D printer are politely requested to donate approximately $0.50 per meter of filament, as estimated by pronterface when loading g-code.
If the printer breaks dramatically while you are using it, don't fret. We have replacement parts, budget, and talent to repair it.
These supplies and others, are funded by membership dues when revenue exceeds operating expenditures (ie. rent), according to Project Awesome rules.