Status: working [box doku]
|Description||A Laser to cut stuff|
We bought a laser! This page should be used for documenting stuff.
Before starting, please read the Safety Guidelines
Here is THE Manual for using the Laser Cutter: Using the Laser Cutter
- Laser is operational
- All-you-can-laser for members, regular costs for non-members & business
- Lens: 75mm -> despite what any funky sign on the laser itself says
- Big build area (Table Size: 1240 x 1000 mm / max Cutting Size: 1140 x 800 mm)
- Red light mode for dry run (could need a second laser source ) - In Progress
- 80W CO2 (see ), wavelength ≈ 10 microns
- AWC608 Controller (see )
Components / Parts
- Anywells AWC608 Laser Engraving Cutting Controller
- Reci 80W CO2 Laser Tube
- HY-T80 Laser PSU (http://www.jnhyec.com/en/productxx.asp?signid=90&proid=124}
- Step Up Converter LM2596S (maximum input voltage 35V)
- Dedicated safety system
- Dedicated exhaust fan controller
Laser saur manual (our cutter is NOT a laser saur, but there are some similarities: http://www.lasersaur.com/manual/
Awesome source of knowledge about diy laser cutters: http://www.buildlog.net/
Open Protect and water flow pins on controller / laser psu: http://www.lightobject.info/viewtopic.php?f=8&t=2015
Lasersaur Mailing list: https://groups.google.com/forum/#!forum/lasersaur
Introduction to CO2 lasers (read the safety part!) http://www.repairfaq.org/sam/laserco2.htm
Installation of LaserCAD: https://wiki.munichmakerlab.de/wiki/LaserCAD
- OUT1: Output "Low" when XY start to move. OK to use this output to control air-pump On or Off as "Air-pump" take time to pump air out and slow
- OUT2: Output "Low" when laser is firing:
- Note that there is no output when XY is moving. It is ideal to use it to control an air-valve when use "Air compressor" as air-assist. Faster action
- Use the same output to trigger a timer/counter for counting laser usage.
- IN1: Door open protect (pulled to GND is closed)
- Other I/O are "NA" and reserved for future expansion
- Warning: TTL is 24V! Still, OUT1/2 are not powerful enough to drive a classical relais.
Safety warning: For calibration it is necessary to deactivate the sensors of the hatch. Therefore, wearing safety glasses is absolutely mandatory. Do not calibrate the laser with persons without safety glasses in the space.
Calibration works well using sticky notes attached to the mirror mounts. Laser output is to be set to 20%. The laser is then fired manually (1-3 seconds) until a burn pattern becomes visible on the sticky note. There were always two burn marks when we were calibrating (Why?). The first calibration was done starting with the mirror next to the laser tube, then working the way toward the cutting area.
- The laser spot is not circular: Most probable cause is the mirror directly above the lens.
wire up electronics and HAL sensor<done> Review power circuitry<done> Install FlowSensor in Chiller(was already installed) Learn serial protocol of Chiller(Adrian) There is no serial :/ Complete outer case (to avoid escaping beam) Complete inner case (to avoid escaping exhaust gases)(Ricardo) Build exhaust venting system Install gas cylinders to prop up hood (see  for choosing correct cylinders)(Eymen) <done> insert optical components calibrate optical components  connecting laser tube inside illumination (white leds) write manual and documentation(Eymen) Control and safety panel
- RFID-Access-System (Jorgen) <in progress>
Safety System panel
Code on github
The Safety System runs on an Arduino, checks for
- Water flow (Right before the laser tube, arduino counting pulses)
- Chiller temp (measured before and after laser tube)
- Exhaust system (differetial pressure; digital)
- water leak under the chiller and in connection pipe on both sides (digital) (--> Heiko)
- lid closed (reed contacts, directly connected to the controller --> Peter)
--> Adrian, Heiko (Code review by Peter?)
- Compressor running
- power consumption (???)
Our laser tube:
- Reci W3 80W Long life CO2
- use copper-backed or molybdenum-backed mirrors. Do not use silicone backed mirrors.
When we have this thing running, we maybe need to think how we can get the costs back in. A 100W laser tube costs around 1200€ and has a lifetime of 6000-10000h.
- 2€ per 10min for members, 3€ for HuS, 4€ for non-members, 5+€ for "commercial" use
We installed a data logger to keep track of the usage hours. The logger tracks the time the air assist is on, which is just about the runtime the laser controller displays for a job. We want to use this to track the working hours of the laser tube, but if you want to check how long your laser cutting jobs took, feel free to checkt that here as well:
Some connectors: - https://www.flickr.com/photos/satiredun/15868308421/sizes/o/ 'PCB' out of steel: - https://www.youtube.com/watch?v=OtZQoIheYcc
- Gas spring, Price 24€, Manufacturer Shockex, Part number 1181202100, Amazon , Force: 320 N, Outer diameter 1: 18 mm, outer diameter 2: 8 mm, Stroke length: 187 mm, Lenght: 468 mm
- : http://support.epiloglaser.com/article/8205/42827/
- : http://www.lasersaur.com/
- : http://www.lightobject.com/AWC608-Commercial-DSP-CO2-Laser-Engraving-Cutter-Controller-P321.aspx
- : http://www.gasfedershop.de/gasfeder_berechnung/
- : http://www.amazon.de/gp/product/B008MPR8W8
- : https://www.youtube.com/watch?v=Wpsi3tKJGMo