Laser cutter, large (Rabbit Laser RL-80-1290) ID:6: Difference between revisions

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Preclean BACK LEFT side of bed: 100% power, 18 mm/s
Preclean BACK LEFT side of bed: 100% power, 18 mm/s


Preclean FRONT RIGHT side of bed: 100% power, 15 mm/s <br />
Preclean FRONT RIGHT side of bed: 100% power, 15 mm/s
 
 
Post clean BACK LEFT side of bed: 100% power, 40 mm/s
 
Post clean FRONT RIGHT side of bed: 100% power, 30 mm/s<br />


===2022-05-22===
===2022-05-22===

Revision as of 20:49, 16 July 2022

← Back to tools we have

6.jpg
The large laser cutter, with its lid open and a piece of material on the bed
Type Laser Cutter
Make/Model Rabbit Laser USA RL-80-1290 (where RL is the factory code, 80 is the original laser power in watts, and 1290 represents the bed size (1200 x 900 mm))
Serial number ??
Original owner Brian Queen
Loan status Semi-Permanent Loan
Arrival date 2012-02
Location Bay 108, near the door to the front rooms
Functional status Working
Usage permissions Members & Friends Only
Certification Must complete Laser Certification
Wiki-ID 6
Label 1.0" 1.5" 2.0"


Arguably the most popular tool at Protospace, the laser cutter uses a CO2 laser to cut and engrave a variety of non-metal materials (though some metals can be engraved).

Software

We currently have LaserCut 6.0 installed on the computer connected to the Laser Cutter. Unfortunately LaserCut 6.0 requires a USB dongle to be hooked up to the PC at all times as a form of DRM. If you're running a personal copy you are restricted to a demo version (no saving - though there is a work around). Later versions (6.1+) have dropped the USB dongle requirement but can't communicate with our laser cutter directly.

Downloads

LaserCut 5.3 (Google Drive, Direct from Leetro) for Windows Paid, Demo

The full version, but requires a special SenseLock USB Dongle to be connected to the PC running it or the software is limited to a demo mode (which is still useful for familiarizing yourself with the program). This version is needed in order to communicate with our laser cutter, as 6.1 doesn't support ours.


LaserCut 6.1 (Google Drive, Direct from Leetro) for Windows Free

Not directly compatible with our laser cutter but has no USB dongle requirement, is fully functional aside from not being able to communicate with our laser cutter. Can still be used to prepare files for the earlier version of LaserCut (5.3). Both versions of LaserCut can be installed at the same time making this version a great option too.


123D Make (Direct from Autodesk) for Windows, Mac, iPad/iPhone Free

A program for converting 3D models into pieces which can be laser cut and attached together to form a fully 3D model out of laser cut materials (example).


Pepakura Designer (Direct from Tama Software) for Windows Paid, Demo

A program for converting 3D models into origami style pages which can be printed, cut out by hand and/or laser cut, then folded to form a 3D object (examples).

Resources

The Powerpoint presentation that is shown as part of the laser certification process, useful as a refresher once you've completed your certification.

TemplateMaker, a very useful Online tool for generating various custom boxes and shapes that can be cut on the laser.

Wolfie's SVG Puzzle Generator, exports a randomly generated puzzle in SVG format which can be converted to DXF and then laser cut out of something (in order to make personalized puzzles).

MakerCase, generates a proper box with the option to set the thickness of the material and pick which style of joints to use.

Approved Materials

Plastic

ABS (acrylonitrile butadiene styrene) — Smells really bad when cut

Acrylic (also known as Plexiglas, Lucite, PMMA)

Delrin (POM, acetal)  

Kapton tape (Polyimide)

Mylar (polyester)

Nylon — melts badly

PETG (polyethylene terephthalate glycol)

Polyethylene (PE) — melts badly

Polypropylene (PP) — melts somewhat

Styrene

Two-tone acrylic — top color different than core material, usually for custom instrumentation panels, signs, and plaques.

Foam

Depron foam — often used for RC planes.

EPM

Foam core — foam core gets burned and eaten away compared to the top and bottom hard shell.

Styrene and other hard foams — very large kerf and taper when cut

Other:

Cloths (leather, suede, felt, hemp, cotton)

Magnetic sheets — usually poor results

Papers — all paper products

Teflon (PTFE, Polytetrafluoroethylene)

Woods (MDF, balsa, birch, poplar, red oak, cherry, holly, etc.)

Glass — can engrave glass, but not cut it.

Pancakes — requires multiple passes - does not smell delicious

It is imperative that you do a chlorine test on unapproved materials before working on them with the laser cutter.

Specs

  • 80-watt DC-excited carbon dioxide laser tube
    • Water-cooled, with chiller accessible from the front
  • Bed size: 1200 mm × 900 mm (47.2" × 35.4")
    • Front panel of machine can be removed or folded down to insert pieces longer than 3' (though this can risk dangerous laser radiation exiting the machine, so be careful)
  • Controller: Leetro MPC 6525A
  • Can cut or etch up to 1/4" (6 mm)-thick light materials such as woods and some plastics in one pass, or thicker materials in multiple passes
  • Cut kerf is approximately 0.3 mm (full width); you should measure it with your material if it's important to your project
Do not cut any chlorinated synthetics (some types of plastics and rubbers)! The HCl vapors will damage the machine.

Usage Notes


Troubleshooting

"Soft stop" when trying to test outline of job

Check the job origin on the lasercut software. Button on the top that says “set stop position” (red square with blue arrow). Open dialog box and de-select 'Fixed Pos'. Then use cursor to select a new start position on display.

Jobs always start in the top left 0,0 of bed, instead of where the laser is

Machine local origin is set; use the arrow keys until the job name is highlighted and press enter, press the right arrow key to select "Clear logical origin" and press enter again

Jobs appear to be positioned at absolute coordinates specified in LaserCut, instead of relative to where the laser head is

"Immediate mode" checkbox is enabled

Arrowkeys on keypad don't do anything

Press the Z-axis button to exit Z-axis up/down mode

PAUSED PRESS START TO CONTINUE

If the laser cutter keeps displaying this message when you start your job, it means the limit switch that detects if the lid is closed is not being engaged. The lid limit switch is located rear left side of the machine. Make sure the switch is engaged and restart. Better yet, reposition the switch so it is always depressed when the lid is closed.

Maintenance

Every Use

  1. Check water level in chiller
  2. Remove offcuts and scrap from the bottom

Monthly

  1. Position gantry is in back left and bed is lowered.
  2. ENSURE POWER IS OFF BEFORE MAINTENANCE.
  3. Remove bed.
  4. In all cleaning steps, do not spray any cleaners inside the laser. Spray onto cloth or paper towel outside of laser.
  5. Clean inner and outer surfaces of laser cutter including window.
    • Use dilute Zep Fast 505 industrial degreaser or other cleaner on hard surfaces (Zep Fast 505 typically stored on shelf beside stairs to classroom with other cleaning products.)
    • Use windex on window.
    • Gently wipe dust off the CO2 in back compartment.
    • Avoid contaminating linear rails or optics (Do not use Zep Fast 505 on linear rails!)
    • Wipe linear rails clean with solvent degreaser (brake cleaner - brake cleaner specifically because it is volatile and will evaporate out pretty fast, so it has 0% change of contaminating the bearings. General purpose degreasers may stick around on the railings and contaminate the bearings and compromise the lubricant) Do not move gantry or bearings onto cleaned section of rail until all solvent has evaporated to prevent contamination of bearing grease.
    • Power on or move gantry manually to front right. Repeat steps to clean surfaces and linear rails.Power off again if turned on.
  6. Grease three linear bearings (left Y, right Y, X) using grease located in the right side compartment storage. Remove set screw, pack in grease with syringe or finger, replace set screw, wipe off excess grease.
    • DO NOT USE ANY AEROSOL OR SPRAY LUBRICANT
    • Currently using Permatec Ultra Slick multipurpose synthetic grease.
  7. Remove and clean lens. Do not lose o-ring. Check direction of the lens (replace convex (Hill) side UP (away from the workpiece) and flat/concave (valley) side toward work)
    1. Laser-lens-alignment.png

  8. Check condition of optics clean if necessary (again, ensure power is off.) Watch this helpful video if you have no clue how to do this
    1. Clean lens at the head of the laser tube
    2. Clean mirrors with q-tips and lens cleaning solution if available (use isopropyl alcohol if not)
    3. If cleaning the optics, PROCEED TO ALIGNMENT
  9. Before checking beam alignment, put on eye protection as checking beam alignment requires us to fire the laser while the lid is open.
    1. Placing tape or targets on each mirror, moving the mirror to nearest position of the previous mirror.
    2. Fire the laser at the nearest position. Move the mirror the farthest position and fire again. Compare where the burn marks are - if they are at the same spot, the mirror is aligned along the gantry. If there are two burn spots, the mirror must be aligned.
    3. Adjust the mirror alignment
      1. To adjust beam alignment, adjust the mirror orientation by turning the thumbscrews on the mounting plate. Turn only a small amount and re-fire the laser to get a sense of how sensitive the mirror adjustments are.
        1. The thumbscrews on the rabbit mirrors are in a different location than this video but the principles of alignment still apply. The thumbscrews change the yaw and pitch of the mirror. For the current mirror mounts, it is easiest to adjust the yaw (or X) position of the beam first then correct the pitch (or Y) position.
      2. Check the beam alignment of each mirror at the nearest and farthest extent that the gantry will allow. This will ensure the beam is aligned along the entire travel pathway of the mirror.
      3. To reset Z height on laser head - Move Z axis bed to top. Put down piece of paper. Adjust laser head to just touch top focus on focus gauge
  10. Replace bed. Check it is level. Adjust if necessary.
  11. Check tension on all belts. Adjust if necessary.
  12. Inspect electronic components for operation including six limit switches (±X, ±Y, ±Z axis), lights and light wiring, electronics cooling fan
  13. Blow out dust from chiller radiator.

As Required

  • Inspect Z-bed screws for smooth operation. Clean and regrease if required. Z screws must be thoroughly cleaned with solvent degreaser before re-applying clean grease.
  • Replace worn or failed laser optics including mirror or lens. Check alignment after any optics replacement.
  • Thoroughly clean smoke and residue off internal surfaces of laser cutter
    • Use concentrated Zep Fast 505 industrial degreaser
    • Avoid contaminating linear rails or optics

To Do List

Bed is warped. X max side of the bed projects up.

Air tube hits the X-max limit switch on right side. Adjust it so it doesn't. Better yet, tee up a replacement for this tube at the current one is crusty and still.

Refill + maintain a list of consumables for this tool:

  • gloves
  • syringes for greasing bearings
  • multipurpose synthetic grease
  • q-tips
  • isoproyl alsocol
  • brake cleaner
  • Laser cut alignment targets out of cardstock

Size the set screws for Y and X axis bearings

Make up cleaning pack and put it in the bottom compartment of the rabbit

Benchmarks

The following settings should cut a 1"x1" square on 3 mm Baltic birch:

2022-07-16

Preclean BACK LEFT side of bed: 100% power, 18 mm/s

Preclean FRONT RIGHT side of bed: 100% power, 15 mm/s


Post clean BACK LEFT side of bed: 100% power, 40 mm/s

Post clean FRONT RIGHT side of bed: 100% power, 30 mm/s

2022-05-22

Preclean FRONT RIGHT side of bed: 100% power, 20 mm/s

Preclean BACK LEFT side of bed: 100% power, 25 mm/s

Post clean FRONT RIGHT side of bed: 100% power, 25 mm/s

Post clean BACK LEFT side of bed: 100% power, 35 mm/s

2022-04-10

Post Clean FRONT RIGHT side of bed: 100% power, 35 mm/s

Post Clean BACK LEFT side of bed: 100% power, 50 mm/s

History

  • 2012-02 - On loan for 6 months (ending 2012-08) in exchange for Protospace performing repairs
    • Loan has been extended
  • 2016-11-06: Chiller failure. Laser tube destroyed (overheated and glass cracked)
    • 2016-11-07: Laser tube replaced with an aging, but unused tube that was donated from a scrap laser
  • 2016-11-11: Chiller failure. Laser tube destroyed.
    • 2016-11-13: Two new laser tubes ordered from an American source.
    • 2016-11-24: Laser tube replaced, chiller pump is broken.
    • 2016-12-04: Chiller repaired. Alignment and power testing is pending.
    • 2016-12-18: Laser is fully operational.
  • 2019-08-17: Lens failure. [1]
    • 2019-08-17: New lens ordered.
    • 2019-08-21: Lens replaced, laser is working.
  • 2022-02-06
    • Tumblers from locks removed from front panel. They can now be turned by hand, making it easier to remove and replace the front panel during cleaning and servicing.