Dual-Task CoreXY DrawBot

When I saw a COREXY (or H-Bot) plotter, I thought I would make it someday. Since most of its components were made from 3D printers so I have postponed it. Fortunately, once again the PVC pipes gave me an idea to build it with a special version. My Dual-Task CoreXY DrawBot can perform double tasks simultaneously, eg: plotting 2 same drawings at the same time, or using pen plotting and laser engraving simultaneously.

Dual-Task CoreXY DrawBot

Please check my introduction video before getting started.

Step 1: Supplies

a. Main materials:

⦾ 1pcs x DFRduino UNO R3 – Compatible with Arduino Uno

⦾ 1pcs x Arduino CNC Shield V3 GRBL.

⦾ 1pcs x 3 Axis Control Board GRBL With Laser Engraver Supported. (Optional if we use Laser engraving mode)

⦾ 1pcs x 2500mW Laser Module (Optional if we use Laser engraving mode).

⦾ 4pcs x Stepper Motor Driver A4988

⦾ 2pcs x Stepper motor NEMA 17.

⦾ 2pcs x CD/DVD Rom Player Drive.

⦾ 2pcs x 50 mm L Stepper Motor Support.

⦾ 3meter x GT2 6mm Timing Belt.

⦾ 4pcs x GT2 5mm Bore Aluminum Toothless Idler Pulley for 6mm Width Timing Belt.

⦾ 1pcs x GT2 Idler Timing Pulley 5mm Bore 20 Teeth.

⦾ 2pcs x GT2 Timing Pulley 20 Teeth.

⦾ 4pcs x Round Shaft Diameter 8mm, Length 500mm.

⦾ 8pcs x Ball Flanged Shielded Bearings 8 x 22 x 7mm.

⦾ 8pcs x Horizontal Ball Bearing Bracket or Vertical Ball Bearing Bracket.

⦾ 2pcs x Aluminum Flexible Shaft Coupling, Inner Hole Size: 10mm x 10mm.

⦾ 1pcs x Power Supply 12/24VDC.

⦾ 2pcs x Clear/White Acrylic, size A3, thickness at least 5mm.

⦾ 4pcs x Copper Brass Pillars L-10mm.

⦾ 2 meter x 8P/16P Rainbow Ribbon Cable.

⦾ 1pcs x 5mm DC Female Power Plug.

⦾ Some small cable ties, cable spiral wrap, bolts and nuts and small zinc wires.

b. PVC pipes and fittings:

⦾ 14pcs x PVC Pipe Tee Ø21mm.

⦾ 16pcs x PVC Three Way Tee Ø21mm.

⦾ 4 meter x PVC Pipe Ø21mm.

Step 1 Dual-Task CoreXY DrawBot

c. Tools:

⦾ Drilling machine.

⦾ Hand saw.

⦾ Soldering machine.

d. Firmware & Softwares:

⦾ GRBL.

⦾ Inkscape.

⦾ LaserGRBL.

⦾ Engraver Master.

⦾ Universal Gcode Platform (UGS).

Step 2: How It Works

My DrawBot is based on GRBL firmware and used built-in CoreXY kinematics in GRBL. Its mainframe and supports are made of PVC pipes and acrylic sheets. It has working range about Y350mm x X320mm and detail configuration is shown below:

Step 2 Dual-Task CoreXY DrawBot

It has two Z axes (“A” is cloned from Z axis) so it is possible to draw two identical images or texts at the same time.

My DrawBot movement is described as follows:

⦾ X and Y rotate clockwise: Y-

⦾ X and Y rotate counterclockwise: Y+

⦾ X rotate clockwise and Y rotate counterclockwise: X-

⦾ X rotate counterclockwise and Y rotate clockwise: X+

Go to the next steps to see how I built it.

Step 3: Fixed Frame – Y Axis

Firstly, I joined 4 pcs x PVC three-way tees Ø21mm together. I made two sets like that (called Y supports) for 2 ends of the Y axis. Later, two stepper motors X and Y would be mounted on them.

Step 3 Dual-Task CoreXY DrawBot

To build Y slider, I connected 2 pcs x PVC tees Ø21mm together and inserted ball bearings into 4 ends of this assembly.

Then I jointed 10pcs x PVC tee Ø21mm together. It was not only used to connect two Y supports, but also used as a footbase for my CNC DrawBot.

There’re 4 open holes for each Y support. I inserted locked bearings into 2 open holes of each assembly. I threaded 2pcs x T8 shafts, length 500mm through Y slider and they were fixed by two Y supports at open holes with locked bearings. To keep the frame strong enough, the remaining two open holes of the Y supports are connected to 10-tees support assembly above.

Step 4: Mounting X & Y Stepper Motors

I cut 2 acrylic sheets, dimension L180 x W120 x T5mm and drilled 8 holes. Four holes were used to mount stepper motors by L supports and the other for connecting to Y supports.

Step 4 Dual-Task CoreXY DrawBot

I drilled 4 holes in each Y supports corresponding to 4 holes on the acrylic motor supports above.

The first acrylic support was mounted to Y axis frame at one side.

And the second acrylic support was done in a same way at opposite side. The bottom level of PVC frame and acrylic sheets should be the same, making sure that both rested on a flat floor.

These acrylic sheets keep the DrawBot from falling down when the X axis moves far away from the DrawBot’s centerline. They also fix the Y pipe supports, pulleys and shafts do not move when the DrawBot is in operating.

Step 5: Moveble Frame – X Axis

Same as Y axis, I made two sets of X supports which were built from 4 pcs x PVC three-way tees Ø21mm. Detail’s as follow:

⦾ The first X support: inserted lock bearings at 2 open holes, and installed one idler timing pulley 20 teeth as below picture:

Step 5 Dual-Task CoreXY DrawBot

⦾ The second X support: inserted lock bearings at 2 open holes, and installed two bolts M4 – L20mm. The distance between them was equal to the diameter of idler timing pulley 20 teeth – about 12mm. They were used to fix the belt system.

X slider was contructed from 2 pcs x PVC tees and ball bearings were inserted into 4 ends of this slider.

Then I cut 2pcs x PVC pipes Ø21mm, length about 500mm.

I threaded 2pcs x T8 shafts, length 500mm into X slider and they were fixed by two X supports at open holes with lock bearings. To reinforce the X frame, the remaining two open holes of X supports were connected to 2 pipes Ø21mm above.

Now I had 2 main seperated parts of a DrawBot.

Step 6: Belt Support

I cut an acrylic sheet, dimension L120mm x W120 x T5mm, drilled and installed 4 toothless idler pulleys in the center. The distances between them were still 12mm.

Step 6 Dual-Task CoreXY DrawBot

I disassembled X & Y sliders from their PVC frames, then did following works:

⦾ X slider: drilled 4 holes at bottom and connected 4 copper brass pillar L-10mm on these holes.

⦾ Y slider: drilled 4 holes on top.

Connect X slider to acrylic belt support through 4 copper brass pillars.

Cut 2 more acrylic sheets which had same size with acrylic support above (dimension L120 x W120 x T5mm)

⦾ Black one: reinforce the slider system and it was install at Y slider bottom.

⦾ Clear one: mount Arduino Uno and GRBL shield.

Acrylic belt support was mounted to Y frame.

Thread 2pcs x T8 shafts, length 500mm into X slider.

Step 7: Double Z Axis

I cut 2 acrylic sheets, dimension L120 x W100 x T5mm, drilled holes to mount 2pcs x CD/DVD frame and installed 2 aluminium flexible coupling 10 x 10mm for clamping the pens.

Step 7 Dual-Task CoreXY DrawBot

I disassembled X supports from X frame and drilled 4 holes on the each support.

Source: Dual-Task CoreXY DrawBot

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