Difference between revisions of "CNC plasma cutter"

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== CNC plasma cutter based on VSL X-Z table ==
 
== CNC plasma cutter based on VSL X-Z table ==
[[File:X-Z_traverseerunit_front.jpg|thumb|right|250px|X-Z traversing unit before any modifications]]
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[[File:X-Z_traverseerunit_front.jpg|thumb|left|250px|X-Z traversing unit before any modifications]]
  
 
=== The working mechanics ===
 
=== The working mechanics ===
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[[File:X-Z_traverseerunit_stuurelektronika.jpg|thumb|right|250px|Control electronics with DC-motor controllers and Mitsubishi PLC]]
 
[[File:X-Z_traverseerunit_stuurelektronika.jpg|thumb|right|250px|Control electronics with DC-motor controllers and Mitsubishi PLC]]
  
The motors work when operated by the joystick controller. Speed is adjustable by means of knobs inside the contol cabinet.  
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*The motors move the X and Z axis when operated by the joystick controller.  
The two motorcontollers work [[http://www.alpatek.com/file.html?id=419]]
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*The X and Z directions have smooth movement over an approximate 1 x 1 m range
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*Speed is adjustable by means of knobs inside the contol cabinet.  
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*The two motorcontollers work [[http://www.alpatek.com/file.html?id=419]]
  
 
=== Hardware that needs to be sorted ===
 
=== Hardware that needs to be sorted ===
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**Perhaps use the software from the laser cutter?
 
**Perhaps use the software from the laser cutter?
  
== Original Ideas ==
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== Original Ideas (before 2013) ==
  
  

Revision as of 21:12, 9 April 2014

Project CNC plasma cutter
Status Initializing
Contact [[Project Contact::Walter, Smeding, Gori, Yotson, Semafoor]]
Last Update 2014-04-09

After acquiring a plasma cutter at the space, it seemed only logical to try and fabricate a CNC version eventually.

This goal is still a while away for now, but as always, we are full of Ideas and this is a convenient place to put them.

CNC plasma cutter based on VSL X-Z table

X-Z traversing unit before any modifications

The working mechanics

Once upon a time, three consecutive interns at VSL made a X-Z traversing unit to automatically measure wind speed velocity distribution of one of VSL's primary standars. This traversing unit was put out of use over half a decade ago, and was finally put on the scrap metal list. If it wasn't for a hackers intervention, it would have been there by now. Luckily it can now have a second life in the spark shack.

The X-Z traversing units has a DC motor for each direction of travel. These motors are coupled to a gearbox and a rotary encoder. A toothed belt then transfers the rotational motion into a linear motion.

Hardware that works

Control electronics with DC-motor controllers and Mitsubishi PLC
  • The motors move the X and Z axis when operated by the joystick controller.
  • The X and Z directions have smooth movement over an approximate 1 x 1 m range
  • Speed is adjustable by means of knobs inside the contol cabinet.
  • The two motorcontollers work [[1]]

Hardware that needs to be sorted

  • The onboard RS-232 PLC (Mitsubishi something or other) may or may not work. If it still works, we need a way to program it. Possibly it's easiest to take out the PLC and put an Arduino or Rpi in there instead
  • Interface with the plasma cutter (relay, some cable and a plug to match the plug that's already on there)
  • mounting for the plasma cutter head
  • some rig to reliably hold the sheets of steel vertical (very important for thin sheets that may bulge or buckle otherwise)
  • a PC that will survive the Spark Shack


Software that needs to be sorted

  • Program for the hardware controller
    • Motion control
    • Speed control
    • Plasma cutter on/off
    • position feedback
    • ...
  • CNC software to draw/cut
    • Perhaps use the software from the laser cutter?

Original Ideas (before 2013)

Specs

  • 3x3 m working area
  • movement speed of 1000mm/s
  • Calibrated accuracy and precision of +/- 0.1mm

Axis motors

smeding is going to design and build a proof of concept linear (synchronous) motor for use in the X- and Y-axes. This test rig will be used to determine whether a DIY LSM is at all useful for our application and to finalize the design if we choose to go with the concept. Specifically, this involves figuring out:

  • How the attainable accuracy compares to the wanted specifications
  • How the attainable movement speed compares to the wanted specifications
  • A final design for the drive electronics
  • Coil and armature geometries
  • Rail geometries (magnet size, spacing and orientation pattern and any backing)
  • Optimal control schemes

After this, we'll be ready to construct the three rails (2x X and 1x Y) that make up the bulk of the CNC machine.

prototype BOM

  • angle extrusion, probably aluminium for the prototype
  • skate bearings (we already have some)
  • magnets
  • copper wire (we already have some)
  • electronics:
    • Microcontroller ([[2]]?)
    • MOSFET drivers (half-bridge or BLDC)
    • MOSFETs (N-channel, high current)

Some rough ideas by Yotson

  • 1.5 x 3.0 Meter max. material size. Spec of plasma cutter mentions 12mm as max thickness.
    Table should manage to hold the weight of a 1.5m x 3.0m x 20?mm sheet of steel.
  • weight of plasma nozzle + hoses/wires?
  • length of nozzle + hoses/wires?
  • speed of nozzle over material > 10 cm per second. (non cutting)
  • nozzle placement accuracy: < 1mm
  • transportable. Able to fit through 'standard' door (on its side, obviously)
  • Maybe:

'upgradeable' by placing rotary cutting tool, pencil, knife, spray can, .... ???


Transport axes: x, y: angle iron and skate wheels + bearings?


linear motors? threaded rod, DC motors, encoders?

z  : ? + threaded bolt, manual adjustment between height of 0mm and 50mm.



Threaded rod info

ISO standard. From HTTP://en.wikipedia.org/wiki/ISO_metric_screw_thread

Diameter in mm. Pitch (fine) Pitch (coarse) Rotational speed 10 cm/s lin. motion (coarse) Rotational speed 10 cm/s lin. motion (fine)
20 or 22 2.5 1.5 or 40rps, 2400rpm 50rps, 3000rpm
2 66.7rps, 4000rpm
30 or 33 3.5 2 28.6rps, 1714rpm 66.7rps, 4000rpm