How do I...

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Revision as of 15:02, 18 March 2021 by Davo (talk | contribs) (I get errors on v4!)
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How do I adjust the settings?

This is pretty easy, once you know the flow.

  1. You set the recipes for the parameters (extrusion width, infill patterns/density, print speed, layer thickness, head/bed temperatures, etc.; save the recipes (with descriptive names - don't overwrite the originals), and close the recipe editor.
  2. You highlight your properly scaled, positioned, rotated stl and select the print, printer, and extruder (filament) recipes to use, and go to Process > Slice with Slic3r.
  3. You review your gcode to ensure that you got what you were hoping to get; review the layer-by-layer rendering as well as the actual settings for temperature, layer thickness (Z moves and M756 flow settings), etc.
  4. You load the print head. Default settings from the head are displayed in Repetrel.
  5. You ensure that the data on the print head reflect your preheat temperature (if any) and proper nozzle diameter (and prime/unprime settings if your custom material requires adjustment) - these settings should be flashed to the head.
  6. You do any preparation (preheating, bed treatment, priming material, etc).
  7. You press Print. Upon pressing print, the following happens:
    1. Head settings are sent from repetrel to the printer.
    2. Gcode is sent from repetrel to the printer. Since gcode is sent second, this will overwrite any head-based settings if gcode has different values

How do I change or clean nozzles?

Carefully:

  1. Heat to the printing temperature of the material loaded.
  2. Move the manual lever to the left, retracting material until it is free of the hobbed shaft, then remove by hand.
  3. Turn off heat to the head and remove it from the yoke.
  4. With a 1/4" driver or wrench, remove the nozzle.
  5. Inspect the nozzle cavity for any stray material; if found, remove with tweezers, solvent, air pressure or other means.
  6. The old nozzle can be cleaned with a fine drill bit the same size as (or slightly smaller than) the nozzle diameter; some users also soak the nozzle in an appropriate solvent to remove all material.
  7. With a 1/4" driver or wrench, attach the new nozzle.
  8. Use normal procedure for heating and loading filament.

How do I change nozzle sizes?

There are two places where we consider nozzle size:

1. On the head, we use the number you have for nozzle diameter to make our flow calculations. See Flow Rate for details about how we determine how fast to spin the motor so that you get the proper volume per second of deposition. This image is for printing with a 14# (fourteen gauge, or 1.6mm ID) luer needle:

H N mat tab.png

2. In the recipe, we use the extrusion width numbers to determine how far apart to place each bead of material. We expect your extrusion width to be 10% wider than your nozzle diameter (to allow for a nice sandbag-shaped cross section). This image is for printing with a 14# (fourteen gauge, or 1.6mm ID) luer needle:

H N slicer.png

This applies to everything we print, from PLA to Porcelain to PEEK.

Please note that we do NOT use any other variable relating to nozzle diameter. Not Bridge Flow Ratio. Not Nozzle Diameter. Not Extrusion Multiplier. All of these variables affect the E values in your gcode. Which we then ignore.


How do I convert DXF files to gcode?

1. In Project Composer, open your DXF:

H D loaddxf.png

2. On the Slicer tab, double click in the text box next to drill-laser, and select the recipe:

H D dlrecipe.png

3. On the Prams tab, configure the head and settings to use:

H D prams.png

4. Process > Process DXF, Text, Drill Objects:

H D process.png

5. Profit!

How do I understand these v4 errors?

So, if your gcode is just for one head, which isn't specified, and you only have one head loaded, Repetrel always has and will still print with that head.

Missing Tx Argument

However, not coding the tool to be used is unacceptable in the CNC world, and we want people to get used to coding in their tool assignments. And yes, it should say Tx command, not Tx argument.

As detailed at the very top of the Gcode Page, you should use a T# command, where # is the slot of the tool you will use, starting with T0 for the left most slot, T1 for the second from the left, etc. Failure to do this will pop up this warning:

Tx.png

This is non-fatal; you can just hit enter or click "OK" and continue, but we want to encourage you to specify which tool to use.

Heads Not Installed

So, you've bypassed (or didn't get) that first error, and now you get another error:

Inst.png

This means that when your file was loaded, it was scanned for any Tx commands - but when you pressed print, the tool positions occupied on the printer don't match the tool assignments in the gcode. Again, this is non-fatal, and if you know your setup is correct, you can hit enter or click "Yes". But, again, we want you to know that the configuration detected on the printer does not match the configuration specified in the gcode.

But It Matches!

So, perhaps you've gotten these errors, and then edited your gcode file to specify T1, which matches the slot where your head is loaded. Well, we don't scan the gcode a second time 'unless your right-click in the gcode and select "refresh gcode"' - doing this will eliminate getting this message after you have edited in the assignment:

Refresh.png

How do I know which T parameter to use?

Awesome question. We know it can be confusing, and that's why we have pages explaining just that!

For Repetrel version 4 and earlier, please see T v4.

For Repetrel version 5 and later, please see T v5, where we've simplified this!

Why do you put a full computer in every printer?

We decided to include the embedded PC in our printers because it enables us to:

1. Provide online support in real time; and

2. Expand the printer’s capability in the future.

There is NO question that this is valuable. Every time we walk a customer through a new procedure, or help diagnose what is going on with their printer via Team Viewer, we are absolutely sure that having the embedded PC was one of the best ideas we have had.

Some people see our printer and really like the hardware, but of course the price is not cheap, because the components are world class quality. These people may find it hard to afford to purchase a printer with an embedded PC, but the PC and touchscreen add a mere $350 to the actual cost of the printer (we make NO profit from the PC; we offer it because it makes the printer that much better, and easier to grow with).

For them we offer a Printer without a PC; however, we strongly suggest that this ONLY be done by people that are VERY computer literate. We factored in 5 hours of personal training on each printer, because this is a new technology and we found that everyone really benefited from this training. We did NOT factor in any time to help people that were trying to get modern software running on an old PC from the garage and save $350 on their printer, because our time is valuable and an old PC is a complete unknown.

The embedded PC comes configured and tested. This is by far the best way to get a great 3D printing experience.

We have always tried to operate with the mindset of: we treat the customer the way we want to be treated. We would much rather spend our time helping someone learn how to print than spend it trying to debug some unique and unknown computer installation.

How do I create or import the files for the part I want?

You can create your stl file with most of the popular cad packages, such as SolidWorks, AutoCad, Alibre, FreeCad, Google SketchUp, ProE, TurboCad, etc.

We bring the .stl file into MeshLab to heal the file (remove reference lines, resolve duplicate vertices, etc.).

Then we bring the healed .stl file into Slic3r to slice it (convert it into the G-code that drives the printer). We will provide typical Slic3r recipes (temperature, flow rate, movement speed, layer thickness, etc.) for filaments and extrudables.

Then we use our very customized version of Repitier Host, which drives the printer to create your part using the G-code from Slic3r.

Why does my motor grind on the filament?

Standard causes and solutions for the motor grinding on the filament (and not advancing it as rapidly as needed):

Filament Grinding
Possible Cause Suggested Fix
Friction or resistance on the delivery path before the motor shaft, including things like:
tangled spool
kinked filament
sharp entrance angle where filament enters guide tubing
kinked tubing.
untangle
unkink
make gentler angle
unkink
Friction or resistance on the exit path after the motor shaft, including things like:
Filament not fully melting fast enough for the demanded throughput.
Nozzle too narrow for the demanded throughput.
Nozzle too close to build surface, causing back pressure.
Try higher temperature, thinner layers, and/or slower print speed.
Try extra torque head, or suggestions above.
Reestablish Z-zero positioning.
Buildup on drive shaft hobs (teeth). Use vacuum or air pressure to clean out the hobs for optimal filament engagement and drive.

What Maintenance Should I Do?

The majority of our motion bearings come from PMI, and here are their recommendations: http://www.pmi-amt.com/en/products/amt_options.htm

You can use a grease or an appropriate liquid oil. You can buy the manufacturer's oil applicator, but other machine oils such as "sewing machine oil" should be fine.

Oil is definitely the simplest. Just spread a few drops on the rail after wiping off all debris.

Other than cleanliness (and a low-humidity environment), no other maintenance is required unless some problem arises.

How do I slice for 4th- or 4th-and-5th-axis machining?

We normally do it by hand, but we also recommend SimplyCAD, which his free.

Why doesn't one tool position work?

If you have one slote (or more) in which no heads heat up or advance material, but these heads work on other slots, you've probably blown one fuse (or more). These are easy to replace:

You'll need to ensure that this is the problem:

  1. Power down.
  2. Remove the silver Phillips screws so that you can lift the upper yoke board up and pull it back, out of the way.
  3. Check for resistance from one side of each fuse to the other (see blue arrows). Any fuse with 0 Ohms is good, but anything greater is blown.

New Style

From around 2016 on, we've been using fuse holders, which allow easy replacement:

Yoke fuses new.png (click to enlarge)

These can be reordered from Digi-Key, or directly through us.

4a yoke fuse ss.png (click to enlarge)

Old Style

Units from before 2016 may have fuses soldered in place:

Yoke fuse old.png

These can be reordered from 4/507-1084-1-ND/615045 Digi-Key, or directly through us.

Old 4a yoke fuse ss.png (click to enlarge)

Replace the Fuse

Replace the old, blown fuse with a new one (you may opt for a larger fuse, but only 15 amps maximum is sent to the yoke) by either simply swapping them out (new ones) or using a soldering iron to remove the old and attach the new (older ones).

Power up and test!


What's that Clicking?

When you hear clicking from a filament head, and material isn't coming out properly, it means that the head cannot advance the material as fast as the gcode demands. Possible causes and solutions:

Mechanical or Logical?

Question: Is this a problem with throughput in general, or with this print in particular?

Investigation: Position the head above the bed (in mid air) and at print temp (240°C for ABS, 210°C for PLA, etc.); attempt to manually advance material at 500 pulses/second (500 on the screen).

Answer 1: If this does not work, you have some mechanical issue - go to Case 1: Mechanical.

Answer 2: If this works, your head is functioning normally, but we'll need to adjust your parameters - go to Case 2: Logical.

Answer 3: If you cannot bring the head to the proper temperature for printing, we have a heating issue - go to Case 3: Heating.

Case 1: Mechanical

Most Common Cause: Input Problems.

Most Common Solution: Find and remove cause of input restriction. Please ensure that there is smooth, low-friction delivery from the spool, through the pneumatic fitting on the chassis, through the PTFE tubing, through the pneumatic fitting on the head, and into the Feed Chamber on the head. There should be no bends or kinks or sharp angles, and no dragging across sharp surfaces. Filament should inter interior PTFE shaft after passing the drive shaft, centered on the hobs (gearing) and pressed firmly (but not too tightly) by two bearings separated by a washer. If you've disassembled and reassembled this part, ensure that this bearing rod is not flipped.

Less Common Cause: Output Problems.

Less Common Solution: Find and remove the cause of the output restriction. While rare (we do test prints with every head and every printer before shipping them), it's possible that some foreign material made its way into the fusion chamber or melting zone of the nozzle. Please follow instructions above for changing and cleaning nozzles, but replace the same nozzle.

Case 2: Logical

Most Common Cause: Temperature is too low for this combination of Material, Layer Thickness, and/or Print Speed.

Resolution: Use a higher temperature and/or thinner layers and/or slower print speeds.

Less Common Cause: If on first layer, perhaps Z-zero is wrong and nozzle is too close to build surface.

Resolution: Ensure bed is level; recalibrate Z-zero.

Case 3: Heating

If the head is not reaching temperature, or not maintaining temperature, we need to find out why:

Is the head set to the right temperature? Just look at the GUI to tell. If it cannot be set to the right temperature, some settings are wrong. Please contact me, hyrel3d@gmail.com or 404-914-1748.

Does the head reach the right temperature? Again, check the GUI. If the head is set properly, but does not warm up, we'll need to check to see if it's getting 12VDC. Please contact me, hyrel3d@gmail.com or 404-914-1748.

Does the head stay at the right temperature? Right, GUI again. If the head is set to temp, but later becomes set to a lower temp (or turned off), I'll need to examine your settings and gcode. Please contact me, hyrel3d@gmail.com or 404-914-1748.

What's the Reset Button?

The Reset button will clear and reestablish communications between the motion controller (the STM407 on the ESR and 30M, or the STM429 on the EHR and Hydra). This doesn't necessarily happen with a reboot, so sometimes we want to be sure it happens; but it's not a panic button, and you shouldn't press it if you don't need to. It's a small button on the motion controller, but we configure another button as well.

The internal button looks like this on the 407 (ESR, 30M):

407

The internal button looks like this on the 429 (EHR, Hydra):

429

The external button on the 30M is on the front panel, and looks like this:

30M

The external button on the ESR and EHR is on the right side and looks like this; earlier models have a green or red button:

Engines

The remote button on the 16A is located inside, behind the control panel, and looks like this:

16A

What About Exhaust?

We recommend at least 500 cfm or 850 m3/h of exhaust while lasering. You will find a 6 " or 150 mm circular exhaust port on the lower left side of the Hydra 16A printers.

Most thermoplastics do better with a heated chamber, so you would not want to vent (or have a very slight negative pressure to minimize escaping fumes) while printing with some materials (every material is different), but you may want to evacuate the air in the chamber after a print has completed. For this reason, an exhaust regulator with variable settings is probably the best solution.

How can I make Spindle Tool Gcode?

We recommend SimplyCAM, a great, inexpensive program from https://www.mr-soft.net/en/scam.html

How should that Microprocessor be Set?

Your motion controller (green STM407 on ESR and 30M printers, or blue STM32 on Hydra and EHR printers) has two switches.

The BOOT CONFIG switch can be set to SYSTEM (usually up or left - sometimes needed for flashing firmware) or FLASH (usually down or right). It should be set to FLASH for normal operations.

The unlabeled power switch can be set to USB (usually left or down - you should not need to use this setting) or 5Vin. It should be set to 5Vin for normal operations.

Note the RESET button, shown here above the USB connector and the LED. You need to RESET after changing any switch positions. All current printers also have a RESET button on the outside or inside of the chassis.

Images:

407 switches.jpg 429 switches.jpg