This guide explains how to set up and start using the Bantam Tools Desktop CNC Milling Machine. The process is simple: Unpack, insert the collet, install the Bantam Tools Desktop Milling Machine Software, and machine your first project.
In this guide we'll go over:
- How to unbox and set up your Desktop CNC Milling Machine
- What accessories come with the machine
- Installing your 1/4" ER-11 collet
- How to install the Bantam Tools Desktop Milling Machine Software
- The steps you'll need to take to start machining
- Getting started project
Important: The Bantam Tools Desktop CNC Milling Machine is about 80 lb. Have a friend help you unbox the machine and lift it onto your desktop.
Step 1: Unbox your Desktop CNC Milling Machine.
The Bantam Tools Desktop CNC Milling Machine will arrive on a pallet. Cut and discard the pallet straps.
Open the Desktop CNC Milling Machine's box. Remove the Accessory Kit, power supply, and cables from the top tray. Remove the top tray and top layer of packing foam from the box. Then remove the outer box by lifting it straight up. Remove the eight foam carriage locks that are held in place with zip ties around the shafts inside the milling machine. With a friend’s help, lift the Desktop CNC Milling Machine out of the box and onto your desktop.
Remove the collet and the two wrenches from the Accessory Kit.
Note: The 1/4” probing pin that comes with your Desktop CNC Milling Machine is not shown in the picture above.
We've also included a belt-tensioning tool. With regular use, the drive belt in your Bantam Tools Desktop CNC Milling Machine will stretch slightly, which can impact the performance of your machine. To ensure optimal performance, the Bantam Tools Desktop Milling Machine Software keeps track of your machining time and will periodically alert you for when it's time to re-tension the belt. To learn more about this process see our Re-Tensioning Drive Belt support guide.
Step 2: Install the collet.
Remove the collet nut from the bottom of the spindle shaft by using the smaller wrench on the flat part of the spindle shaft to secure it in place while loosening the nut with the larger wrench.
Insert the collet into the collet nut. It might wiggle a little, but putting it on the tool holder will pop it into place. You might also notice the inside of the collet has an offset. This is part of the collet’s design.
With the collet in place, thread the collet nut back onto the tool holder by hand. Tighten by two or three turns, holding the tool holder in place with the small wrench if necessary.
Note: Do not fully tighten the nut without a tool inserted.
Step 3: Connect to power.
Connect the power supply to the power jack on the back of the Desktop CNC Milling Machine with the built-in cable. Next, connect the power cable to the power supply and plug it into a grounded electrical outlet. Then plug in the USB cable to the USB jack on the back of the milling machine and connect the other end to your computer.
Step 4: Install the Bantam Tools Desktop Milling Machine Software.
To operate the Desktop CNC Milling Machine, you’ll need to install the latest version of the Bantam Tools Desktop Milling Machine Software on your computer. The Bantam Tools software is available for Windows 8.1 and above, MacOS 10.13.6 and newer. Download it here and install the program according to your operating system’s instructions. For more details about navigating the latest version of the Bantam Tools software, see our Software Overview support guide.
With the front door closed, turn on the CNC machine by twisting the Emergency Stop button on the front of the machine clockwise and pushing the power button on the back of the machine. The interior lights will turn on and the CNC machine will beep.
Note: If the firmware on your Desktop CNC Milling Machine needs to be updated, the Bantam Tools software will automatically guide you through the process.
When prompted, click Start Homing to calibrate your machine. If you’re starting your CNC machine for the first time, the Locate T-Slot Bed dialog box in our software will automatically pop up and provide prompts to help the machine locate the bed correctly.
Next, you'll need to insert the end mill of your choice. Follow our Installing & Locating a Tool support guide for a full tutorial.
Alright! Now it's time to set up your job!
Before You Start Milling
If you’ve used a CNC machine before, feel free to skip to the next section. Whenever you use the milling machine, you need a design file, milling material, and a milling tool.
Design file: The milling machine needs to know what to mill. Once you’ve created a design, import it into our software to scale and orient it the way you want. Our software supports G-code, SVG (.svg), and .nc files.
The Bantam Tools Desktop Milling Machine Software supports the following popular design formats:
- G-code (.gcode)
- Another extension for G-code files (.tap)
- Mastercam numerical control file (.nc)
- SVG file (.svg)
- EAGLE file (.brd)
- Gerber top layer (GTL) printed circuit board (PCB) file (.gtl)
- Gerber printed circuit boards (PCB) file (.gbr)
- Default format for exporting from EAGLE; contains top, pads, and vias layers (.cmp)
- Bantam Tools project file (.btm)
If you’re just getting started, head over to our Getting Started Projects.
Milling material: The milling machine cuts most anything softer than steel. The object you're milling is called the material, stock, or workpiece, aka “the thing you’re cutting.” For more information on materials supported by the milling machine, read our Materials guides. If you need help selecting material, refer to our Materials Overview Guide.
Before you start cutting, you’ll need to fixture your material to the T-slot bed. The L-bracket comes pre-installed and toe clamps to hold your material to the T-slot bed. To learn more about fixturing techniques check out our Fixturing support guide.
Milling tool: We’ve included a Helical 1/4” flat end mill to get you started, but you can use any cutting tools with a 1/4” shank diameter. You can also use 1/8" tools, but you will need to install an ER-11 1/8" collet. Remember, the smaller the tool, the more fragile it will be, and the slower you’ll need to cut. Larger tools are great for roughing passes and clearing out lots of material, while smaller tools are better for detail work and finishing passes.
Once you’ve imported and set up your design file, loaded a tool, and fixtured your material, you’re ready to mill!
Getting Started Projects
Each of our Getting Started Projects has been designed to help you get more comfortable with our Bantam Tools Desktop CNC Milling Machine, show you how to set up your job in the Bantam Tools software for the first time, and build your machinist skill set.
This Aluminum Tool Holder project walks you through the basic workflow of machining an aluminum part on your new desktop CNC machine and gives you a place to store your collet wrenches, end mills, and other go-to tools. The block of aluminum stock that comes fixtured to your T-slot bed is what you'll use to machine this project!
In this project, we dive into 2.5D machining with the Desktop CNC Milling Machine. We'll show you how to machine a pocket-sized machinist rule using both the basic and advanced SVG workflows in the Bantam Tools Desktop Milling Machine Software. This is a great project for those still getting comfortable with Fusion 360.
In this high-level project, we’ll show you how to machine a rope knotting tool. You can use this everyday carry object as a tie-down or for other rope handling tasks. This project involves a multi-operation setup, multiple tool changes, and intermediate fixturing techniques.
If you have questions or need help, please don’t hesitate to contact us at email@example.com. We'd love to hear from you. Mill on!