WorkBee: Difference between revisions

From CoMakingSpace Wiki

(made everything far more verbose and idiot proof)
m (→‎Fusion 360 Setup: formatting and extra Screenshot)
 
(3 intermediate revisions by 2 users not shown)
Line 15: Line 15:
|similar=[[router]], [[CNC Mill|CNC mill]]
|similar=[[router]], [[CNC Mill|CNC mill]]
}}
}}
'''Currently defective due to a buggy/broken controller board! See [https://github.com/comakingspace/do-something/issues/307 Issue #307]'''


We have a 1500mm x 1500mm version of the [https://www.thingiverse.com/thing:2538752 WorkBee] [[CNC Router|CNC router]], which is based on the Openbuilds OX. It can currently cut sheet material of up to 50 mm thickness on a work area of approximately 1250{{x}}1250 mm. The surfaced ''(plangefräste)'' [[#Spoilboard|spoilboard]] area is 1260{{x}}1160 (x{{x}}y) mm.
We have a 1500mm x 1500mm version of the [https://www.thingiverse.com/thing:2538752 WorkBee] [[CNC Router|CNC router]], which is based on the Openbuilds OX. It can currently cut sheet material of up to 50 mm thickness on a work area of approximately 1250{{x}}1250 mm. The surfaced ''(plangefräste)'' [[#Spoilboard|spoilboard]] area is 1260{{x}}1160 (x{{x}}y) mm.
Line 26: Line 25:
You can find the newest version of these required files [https://github.com/comakingspace/WorkBee/tree/master here]. Feel free to submit improvements.
You can find the newest version of these required files [https://github.com/comakingspace/WorkBee/tree/master here]. Feel free to submit improvements.


At the top of the Fusion 360 Interface, select "Manage > Machine Library". Then under "My Machines > Local" you can ''import'' (NOT CREATE) the machine definition.
'''Also seperately import the post processor!''' Under the machine entry in your machine library in the "Post:" section, you can click the folder icon to import the latest post processor from the GitHub page.<gallery>
File:Fusion360 Machine Library.png|Step 1: Open Machine Library (german Screenshot)
File:F360-machine-import.png|Step 2: Import machine to local machines
</gallery>
=== Using the WorkBee CNC ===
We have various wiki pages documenting how to use the WorkBee CNC. Take a look:
[[WorkBee Machine Operation]] for general machine operation (on/off, starting jobs, jogging, etc)
[[WorkBee organization]] for keeping things tidy
[[Autodesk Fusion 2D Contour Machining]] for CAM (Creating G-Code for the Machine)
=== Workflow ===
'''This is just an overview and does NOT replace the [[CNC Router Introduction|personal introduction]]!'''
# create the tool paths in a suitable CAM software (e.g. [[Fusion 360]])
# [[CNC Router Workholding|secure your workpiece]] on the machine's bed
# insert the appropriate collet & bit as defined in your tool paths
# home the machine, jog to your workpiece origin and zero your work coordinates
# Upload your generated G-Code
# put on [[PPE|personal protection]]
# Run your Program
# Once the Machine has homed, turn on the spindle & vac on the control panel (only works after homing)
# Be ready to hit the Emergency Stop in case SHTF. Your Program is running!<span id="workbee-cnc-wiki-docs"></span>
=== Router ===
=== Router ===


Line 39: Line 66:


The collets of the DW613, DW620 and DW621 also fit the router and are easier to get in Germany than the original ones.
The collets of the DW613, DW620 and DW621 also fit the router and are easier to get in Germany than the original ones.
==== RPM Chart ====
{| class="wikitable"
{| class="wikitable"
|+RPM Chart
!Dial Setting
!Dial Setting
!Approx. RPM
!Approx. RPM
Line 86: Line 114:
Other interesting designs:
Other interesting designs:
* https://www.thingiverse.com/thing:2802301
* https://www.thingiverse.com/thing:2802301
=== Workflow ===
'''This is just an overview and does NOT replace the [[CNC Router Introduction|personal introduction]]!'''
# create the tool paths in a suitable CAM software (e.g. [[Fusion 360]])
# [[CNC Router Workholding|secure your workpiece]] on the machine's bed
# insert the appropriate collet & bit as defined in your tool paths
# home the machine, jog to your workpiece origin and zero your work coordinates
# Upload your generated G-Code
# put on [[PPE|personal protection]]
# Run your Program
# Once the Machine has homed, turn on the spindle & vac on the control panel (only works after homing)
# Be ready to hit the Emergency Stop in case SHTF. Your Program is running!<span id="workbee-cnc-wiki-docs"></span>
== Using the WorkBee CNC ==
This Section explains how to use the Machine to create parts.<span id="general-machine-operation"></span>
== General Machine Operation ==
Interfacing with the WorkBee CNC has changed significantly after the 2024 rebuild. This section will explain its operation.
[[File:Workbee-overview-labeled.png|alt=a labeled overview of the work area|center|thumb|763x763px]]
'''The machine:'''
To start the Machine, the Electronics Panel on the left have a power strip (Mehrfachstecker) with a toggle switch. This is the main on/off switch.
After starting, ensure both E-Stops are not pressed. The machine will start up, and you can open the Web Interface on the Tablet, PC or any other device.<span id="web-interface"></span>
=== Web Interface ===
The WorkBee CNC is controlled via a Web Interface accessible through the CoMakingSpace network. On any connected device, visit [http://comakingcnc/ http://comakingcnc/] or [http://10.2.0.3 http://10.2.0.3] to control the machine and upload jobs.
To start milling, you begin by inserting an endmill, homing the machine, and jogging the machine XY over your workpiece origin (usually the left-front corner). Then, slowly lower down until the tip of the endmill touches the workpiece. This is your workpiece zero point. Save this point by clicking on ''Set Work XYZ''. All this is done through ''Machine Movement'' on the Dashboard of the Web Interface:
<div class="figure">
[[File:workbee-webinterface-jog.png|520|645x645px]]
</div>
Then, upload your job to the machine, either on the top right of the Web Interface or through the ''Jobs'' tab.
=== Starting a job ===
When starting a milling job, make sure the workpiece is secured well and you are wearing proper PPE. Next, start your job via the Web Interface. The machine will home. Then, after homing, you can start the spindle with the button on the front panel interface. This button will not work before homing or if no job is running to ensure someone is present at the start of any operation.
Sit back, relax, and keep an eye out in case you need to use the E-Stop - the machine will now start making your parts.
<span id="fusion-360-process-for-contour-machining"></span>
== Fusion 360 Process for Contour Machining ==
The following section will walk you through setting up a contour milling operation in Fusion 360 for the WorkBee CNC. You will start with a New Fusion 360 Document and end up with a G-Code file ready to upload to the machine.
For further information and the explanation for each step, consult the [https://help.autodesk.com/view/fusion360/ENU/?guid=GUID75B6821B-DE26-4E3B-AF10-4A54131CD9E4 Fusion 360 Documentation]<span id="prepare"></span>
=== Prepare ===
To get started, you will need to create the 2D geometry you’d like to mill out. For testing, a simple square with about 50 mm side length is a good starting point. Extrude it by the material thickness you plan to machine.
Then, in the top left corner of Fusion 360, switch from the “Design” workspace to the “'''Manufacture'''” workspace. This is where you’ll define your toolpaths and machine settings.
==== Import Workbee CNC ====
'''Before you get started, make sure you have properly imported the [https://github.com/comakingspace/WorkBee/tree/master latest version] of the machine definition and postprocessor into Fusion 360.'''
Check the last updated date on the GitHub page above. If you haven't imported the latest definitions since then, you'll need to add them.
At the top of the Fusion 360 Interface, select "Manage > Machine Library". Then under "My Machines > Local" you can ''import'' (NOT CREATE) the machine definition.
'''ALSO SEPARATELY IMPORT THE LATEST POST PROCESSOR!''' Under the machine entry in your machine library, the "Post:" section, you can click the folder icon to import the latest post processor from the GitHub page.
[[File:F360-machine-import.png|center|thumb|385x385px|The import process]]
<span id="create-your-milling-tool"></span>
==== Create your Milling Tool ====
At the top of the Fusion 360 Interface, select "Manage > Tool Library" to open the tool library. Navigate to "Local > Library". This is where you'll save all of your endmill data.
Click on "['''+''']" to add a new tool. Select the appropriate geometry, most likely "Flat End Mill".
'''Tab 1: General'''
Here you can name your endmill. Describe them well, you'll mix them up otherwise. Also enter sourcing information (such as aliexpress links) here, you'll thank yourself later.
'''Tab 2: Cutter'''
Take Measurements of your tool for dimensions using calipers (Messschieber) and populate the values accordingly.
Adjust number of flutes and the geometry to match your endmill. I recommend setting "length below holder", "shoulder length" and "flute length" to the same value, that being the length of fully formed cutting flutes of your endmill.
'''Tab 3: Shaft'''
leave as is
'''Tab 4: Holder'''
leave as is
'''Tab 5: Cutting Data'''
[[File:F360-tool-cutting-data.png|thumb|375x375px|Cutting Data Tab]]
The following cutting data is a recommended starting point for a 1/8” (3.175mm) 2-flute flat nose endmill cutting plywood. Many of the values (marked with ''fx'') are calculated automatically and don't need adjusting.
Tweak these values as you gain experience:
* '''Spindle Speed (Drehzahl):''' 16,000 RPM
* '''Cutting Feedrate (Schnittvorschub):''' 1000 mm/min
* '''Ramp Feedrate (Helixvorschub):''' 500 mm/min
* '''Plunge Feedrate (Eintauchvorschub):''' 500 mm/min
* '''Coolant:''' ''DISABLE'' (To prevent errors, the WorkBee doesn’t have a coolant system)
'''Tab 6: Post Processor'''
leave as is.
Sanity check all data once over and click "accept" to confirm.
=== Configure Setup ===
[[File:Image.png|thumb]]
Create by selecting "Setup > New Setup"
'''Tab 1: Setup'''
* Machine:
** Select the [[WorkBee#Import Workbee CNC|latest]] machine definition
* Workpiece Coordinate System
** Origin: Stock Box Point
** Select Front-Left-Top corner
'''Tab 2: Stock'''
* Mode: Relative size box
** Stock side offset: 5 mm
** Stock top offset: 0 mm
** Stock bottom offset: 0 mm
'''Tab 3: Part Position'''
leave as is
'''Tab 4: Post Process'''
Optional: adjust program name.
leave as is.<span id="set-up-2d-contour-operation"></span>
=== Set up 2D contour operation ===
At the top of the Fusion 360 Interface, select "2D &gt; 2D Contour" to create a new 2D contour milling operation.
[[File:Workbee-tutorial-2d-contour.png|right|275x275px]]
'''Tab 1: Tool'''
* Select the appropriate Tool
* Ensure the cut parameters are sane and have been properly inherited from the tool
'''Tab 2: Geometry'''
* Select the 2D contour you want to machine (the bottom edge of your design)
* Enable tabs
** '''Tab Shape:''' Triangle
** Tab dimensions example:
*** 6 mm width
*** 4 mm height
*** 30 mm Distance
'''Tab 3: Heights''' - leave as is
'''Tab 4: Passes'''
* Sideways Compensation: Right (Rechtsfräsen)
* '''OPTIONAL: Preserve order''' Check this box if you have nested features (cutouts within cutouts) to maintain the cutting order
* '''OPTIONAL: Smoothing Filter''' Enable for smaller file sizes
'''Tab 5: Multi-Axis'''
* leave as is
'''Tab 6: Linking'''
* '''Lead-In:''' Deactivate
* '''Lead-Out:''' Deactivate
* '''Ramp:''' Enable
** '''Maximum Ramp Stepdown:''' Start with 3-6 mm and adjust based on endmill strength, desired cut quality, and material thickness
'''Confirm the Operation with OK. Fusion 360 will now display a preview of the operation.'''
<span id="simulate-to-check-export"></span>
=== Simulate to check &amp; Export ===
[[File:Workbee-tutorial-export.png|thumb|276x276px|post processor menu]]
* At the top of the Fusion 360 Interface, use the “Actions > Simulate” tool to check you haven’t missed anything
* At the top of the Fusion 360 Interface, use "Actions > Post Process"
* Check Use Machine Configuration (“Maschinenkonfiguration verwenden”)
** Select Machine: “Comakingspace CNC”
** Check Post-Processor: “WorkBee CoMakingSpace RRF”
* Export
You now have a G-Code file to upload to the CNC via its web interface!
<span id="organization-around-the-machine"></span>
== Organization around the Machine ==
Around the machine, there are plenty of ways to keep all tooling organized. These are for '''public''' things. Anything here is free to use for anyone, so leave your leftovers and take what you can use!
As with all other tools, please leave the CNC more organized than you found it. For example, the collet wrench should always return to its intended place:
<div class="figure">[[File:Workbee-wrench.png|alt=400|center|527x527px]]
</div>
<span id="gridfinity"></span>
=== Gridfinity ===
In front of the machine, at the table, there are [https://gridfinity.xyz/ Gridfinity] baseplates:
<div class="figure">
[[File:workbee-gridfinity.png|400|645x645px]]
</div>
'''Gridfinity''' is a 3D Printed organization system based on a 42mm grid. The bins in front of the machine are meant to be freely used, labeled and expanded upon. You can find additional bins to 3D Print on sites like [https://www.thingiverse.com/ Thingiverse], [https://www.printables.com/ Printables] and [https://thangs.com/?sort=trending Thangs]. For example, if we add more collets in the future, re-print the [https://www.printables.com/model/989475-gridfinity-dewalt-collet-holder collet holder].
<span id="pegboard"></span>
=== Pegboard ===
On the wall left of the machine, there is a pegboard system for storing the larger items such as dust shoes. It is a '''Küpper''', also known as “Euro” style pegboard based on a 15 mm grid of 4.5 mm holes. Just as with Gridfinity above, the usual sites offer various ready-made 3D models of hooks and holders to print yourself, and there’s always the option to just buy more hooks from Küpper at [https://www.bauhaus.info/werkzeugwaende/kuepper-lochwandhaken-set-72000/p/11142266 Bauhaus] or [https://www.amazon.de/s?k=k%C3%BCpper+lochwand Amazon].
<br clear=all>

Latest revision as of 12:50, 12 October 2024

WorkBee

MachineInfoBox

Ooznest WorkBee CNC

Ooznest WorkBee CNC.JPG
Synonyms: DE: CNC-Fräse, CNC-Plattenfräse, Portalfräsmaschine
Type: CNC Router
Material: wood
Used with: 6 mm, 8 mm, 1/4" or 1/8" end mills;
some kinds of router bits
Location: CNC Area
Access Requirements: CNC Router Introduction
Status: Working
Firmware: grbl
Software: LaserWeb, Fusion360, see G-Code Sender
Manual: product page, click "documentation" tab
Tutors: NitramLegov
Pakue
Johannes
Luzian
Leo
Similar (More or Less): router, CNC mill



We have a 1500mm x 1500mm version of the WorkBee CNC router, which is based on the Openbuilds OX. It can currently cut sheet material of up to 50 mm thickness on a work area of approximately 1250 × 1250 mm. The surfaced (plangefräste) spoilboard area is 1260 × 1160 (x × y) mm.

Our plans for further improving it up can be found in our "WorkBee CNC" github project - maybe you would like to help.

Fusion 360 Setup

To use the router in Fusion 360, make sure you add the latest machine definition and post-processor to Fusion 360.

You can find the newest version of these required files here. Feel free to submit improvements.

At the top of the Fusion 360 Interface, select "Manage > Machine Library". Then under "My Machines > Local" you can import (NOT CREATE) the machine definition.

Also seperately import the post processor! Under the machine entry in your machine library in the "Post:" section, you can click the folder icon to import the latest post processor from the GitHub page.

Using the WorkBee CNC

We have various wiki pages documenting how to use the WorkBee CNC. Take a look:

WorkBee Machine Operation for general machine operation (on/off, starting jobs, jogging, etc)

WorkBee organization for keeping things tidy

Autodesk Fusion 2D Contour Machining for CAM (Creating G-Code for the Machine)

Workflow

This is just an overview and does NOT replace the personal introduction!

  1. create the tool paths in a suitable CAM software (e.g. Fusion 360)
  2. secure your workpiece on the machine's bed
  3. insert the appropriate collet & bit as defined in your tool paths
  4. home the machine, jog to your workpiece origin and zero your work coordinates
  5. Upload your generated G-Code
  6. put on personal protection
  7. Run your Program
  8. Once the Machine has homed, turn on the spindle & vac on the control panel (only works after homing)
  9. Be ready to hit the Emergency Stop in case SHTF. Your Program is running!

Router

The router mounted to it is a Dewalt D26200 (GB; known outside Europe as DWP611). You need to consider the sizes of its collets (Spannzangen) when buying your router bits.

  • no-load speed: 16000 - 27000 rpm
  • max cutter diameter: 30 mm
  • available collet diameters:
    • 8 mm
    • 6 mm
    • 1/4 inch (6.35 mm)
    • 1/8 inch (3.175 mm)

The collets of the DW613, DW620 and DW621 also fit the router and are easier to get in Germany than the original ones.

RPM Chart

Dial Setting Approx. RPM
1 16000
2 18200
3 20400
4 22600
5 24800
6 27000

Spoilboard

Ooznest recommends a 6mm spoiler board, our first one is 20mm thick. It is mounted to the frame using 4 drop-in T-slot nuts. Cutting into the boards will make it uneven, from time to time it is neccessary to surface the spoiler board again.

The total size of the spoilboard is currently 1445 × 1370 mm.

When there is time, we would like to drill workholding holes into the spoilboard.

Electrics

The Machine received a full electrical overhaul in the first half of 2024, here are its current electrical specifications:

  • Duet 3 6HC+ Mainboard running RepRapFirmware
  • Web- and touch interface
  • MT-2303HS280AW 2.8A NEMA23 Stepper Motors
  • Dewalt D26200 Router

Dust Extraction

The Workbee Vacuum automatically turns on with the spindle. We have added a cyclone dust separator before the shop vac so the bulk of the chips should be collected in an easily emptied box rather than the shop vac's bag.

The part that attaches the dust extraction hose to the router is called a "dust shoe". We are currently using this one designed by Patrick. The next version should ideally fit the dust extraction hose without an adapter and include a kind of transparent, flexible "skirt" to optimize the airflow.

Other interesting designs: