PANDORA Junior DXs – 3D Design Concept

DIY 3D Printer – PANDORA Junior DXs (Design eXtreme single)

3D Design Tool: SketchUp Pro

Technical Specifications

Printing

Technology: FFF(Fused Filament Fabrication) / CoreXY
Build Volume: 223 (W) x 207 (D) x 250 (H) mm – Heatbed
Layer Resolution: 50 ~ 200 microns
Filament: ABS or PLA, Nyron, HIPS, PVA… 1.75 mm diameter
Nozzle Diameter: 0.4 mm (0.2mm, 0.3mm, 0.8mm)
Print File Type: .Code, .STL
Layer Resolutions:

  • Fast: 200 micron (0.2 mm)
  • Normal: 100 micron (0.1 mm)
  • hHigh: 0.06 micron (0.06 mm)
  • Ultra High: 0,04 micron (0.04 mm)

Size and Weight

Product Dimensions: 410 (W) x 410 (D) x 485 (H) mm
Product Weight: 11 kg(?)

Software

Software Bundle: Cura, Slic3r, KISSlicer / Octoprint, Printrun, Repetier-Host, MatterControl
Supported File Types: .STL, .OBJ, .AMF, .Gcode
Operating Systems: All (Web-based): Windows, Mac OS, Linux

Firmware

Arduino: Modified Marlin v1.0.2-2
Raspberry Pi: Rasbian, Octoprint, SSH, Samba, VNC, WiringPi

Hardware

Base Plate: Profile DRF 2020, Acrylic
Step Motor: NEMA 17 – Phase: 4, Step Angle: 1.8 Deg/Step, Holding Torque: 2.6Kg.cm

  • X/Y/Z/E – 4EA
    Cartesian (xyz): X/Y Head: Profile DRF 2020, Z Bed: 10mm Linear Shaft and 8D Screw Rod

Electrical

Control Board: Arduino Mega 2560
Control Shield: Ramps 1.4 Board
Display Board: Reprap Discount Smart Controller LCD 2004
Raspberry Pi: Raspberry Pi 2/3
Camera: Raspberry Camera
Power Requirements: AC 100 – 240 V, 1.4 Amps, 50-60 Hz, 220 W
Connectivity: USB, SD Card, Wi-Fi (Web-based)
Temperature:

  • Nozzle temperature: 170 – 270
  • Heated bed temperature: 50 – 100
  • Operational temperature: 10 – 40
  • Storage temperature: 0 – 32

https://youtu.be/MC2KeKuKM1A


Thanks for watching!……..Coming soon!……..Updating……

Blog:
http://zddh.blogspot.kr/2017/12/pandora-junior-dxs-3d-design-concept.html

The open source PANDORA DXs hardware and software is free and made with love. Please show your level of support with a voluntary donation.

Donate:
https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=RDN7ZGAVFS5UE

DIY Delta 3D Printer – HexaBot

DIY Delta 3D Printer – HexaBot
3D Design Tool: SketchUp Pro


Technical Specifications


Printing


Technology: FFF(Fused Filament Fabrication) / Delta
Build Volume: 95 (W) x 95 (D) x 135 (H) mm

  • Auto running Heatbed
    Layer Resolution: 50-200 microns
    Filament: ABS or PLA, Nyron, HIPS, PVA… 1.75 mm diameter
    Nozzle Diameter: 0.4 mm (0.2mm, 0.3mm, 0.8mm)
    Print File Type: .Gcode, .STL
    Layer Resolutions:
  • Fast: 200 micron (0.2 mm)
  • Normal: 100 micron (0.1 mm)
  • hHigh: 0.06 micron (0.06 mm)
  • Ultra High: 0,04 micron (0.04 mm)

    Size and Weight


    Product Dimensions: 260 (W) x 300 (D) x 460 (H) mm
    Product Weight: 4.5 kg


    Software

Software Bundle: Cura, Slic3r, KISSlicer / Octoprint, Printrun, Repetier-Host, MatterControl
Supported File Types: .STL, .OBJ, .AMF, .Gcode
Operating Systems: All (Web-based): Windows, Mac OS, Linux


Firmware


Arduino: Modified Marlin v1.0.0
Raspberry Pi: Rasbian, Octoprint, SSH, Samba, VNC, WiringPi


Hardware


Base Plate: Profile DRF 2020, Acrylic
Step Motor: NEMA 17 – Phase: 4, Step Angle: 1.8 Deg/Step, Holding Torque: 2.6Kg.cm

  • X/Y/Z/E – 4EA
    Cartesian (xyz): X/Y Head: LM Guide, Z Bed: 10mm Linear Shaft and 8D Screw Rod


    Electrical


    Control Board: Arduino Mega 2560
    Control Shield: Ramps 1.4 Board
    Display Board: Reprap Discount Smart Controller LCD 2004
    Raspberry Pi: Raspberry Pi B
    Power Requirements: AC 100 – 240 V, 50-60 Hz, 12 VDC, 4.5A, 54 W
    Connectivity: USB, SD Card, Wi-Fi (Web-based)
    Temperature:

  • Nozzle temperature: 170 – 270
  • Heated bed temperature: 50 – 100
  • Operational temperature: 10 – 40
  • Storage temperature: 0 – 32

    https://www.thingiverse.com/thing:917729


    Thanks for watching!…….coming soon!……Updating……

The open source HexaBot hardware and software is free and made with love. Please show your level of support with a voluntary donation.

Donate:
https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=RDN7ZGAVFS5UE

DIY 3D Printer PANDORA DXs

DIY 3D Printer – PANDORA DXs (Design eXtreme single)
3D Design Tool: SketchUp Pro


Technical Specifications


Printing


Technology: FFF(Fused Filament Fabrication) / H-Bot(CoreXY)
Build Volume: 223 (W) x 225 (D) x 165 (H) mm

  • Heatbed
    Layer Resolution: 50-200 microns
    Filament: ABS or PLA, Nyron, HIPS, PVA… 1.75 mm diameter
    Nozzle Diameter: 0.4 mm (0.2mm, 0.3mm, 0.8mm)
    Print File Type: .Gcode, .STL
    Layer Resolutions:
  • Fast: 200 micron (0.2 mm)
  • Normal: 100 micron (0.1 mm)
  • hHigh: 0.06 micron (0.06 mm)
  • Ultra High: 0,04 micron (0.04 mm)

    Size and Weight


    Product Dimensions: 426 (W) x 433 (D) x 500 (H) mm
    Product Weight: 11 kg


    Software


    Software Bundle: Cura, Slic3r, KISSlicer / Octoprint, Printrun, Repetier-Host, MatterControl
    Supported File Types: .STL, .OBJ, .AMF, .Gcode
    Operating Systems: All (Web-based): Windows, Mac OS, Linux


    Firmware


    Arduino: Modified Marlin v1.0.0
    Raspberry Pi: Rasbian, Octoprint, SSH, Samba, VNC, WiringPi


    Hardware


    Base Plate: Profile DRF 3030, Acrylic
    Step Motor: NEMA 17 – Phase: 4, Step Angle: 1.8 Deg/Step, Holding Torque: 2.6Kg.cm

  • X/Y/Z/E – 4EA
    Cartesian (xyz): X/Y Head: LM Guide, Z Bed: 10mm Linear Shaft and 8D Screw Rod


    Electrical


    Control Board: Arduino Mega 2560
    Control Shield: Ramps 1.4 Board
    Display Board: Reprap Discount Smart Controller LCD 2004
    Raspberry Pi: Raspberry Pi B
    Camera: Raspberry Camera
    Power Requirements: AC 100 – 240 V, 1.4 Amps, 50-60 Hz, 220 W
    Connectivity: USB, SD Card, Wi-Fi (Web-based)
    Temperature:

  • Nozzle temperature: 170 – 270
  • Heated bed temperature: 50 – 100
  • Operational temperature: 10 – 40
  • Storage temperature: 0 – 32

    https://www.thingiverse.com/thing:917718


    Thanks for watching!……..Coming soon!……..Updating……

The open source PANDORA DXs hardware and software is free and made with love. Please show your level of support with a voluntary donation.

Donate:
https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=RDN7ZGAVFS5UE