cnc

635 Articles

Minimalist Robot Arm Really Stacks Up

August 19, 2021 by 7 Comments

There’s nothing like a little weekend project, especially one that ends up better than you expected. And when you literally build a robotic arm out of workshop scraps, so much the better.

Longtime readers will no doubt recognize the build style used here as that of [Norbert Heinz], aka “Homofaciens” on YouTube. [Norbert] has a way of making trash do his bidding, and has shown us all kinds of seemingly impossible feats of mechatronics with just what’s lying around. In this case, his robot arm is made from scrap wooden roofing battens, or what we’d call furring strips here in the US. The softwood isn’t something you’d think would make a great material for building robots, but [Norbert] makes its characteristics work for him, like using wax-lubricated holes for hinge points. Steppers and lead screws cannibalized from an old CNC build, along with the drive electronics, provide the motion. It’s a bit — compliant — but precise enough to pick up nuts and stack them nicely. The video below gives an overview of the build, and detailed instructions are available too.

We always appreciated [Norbert]’s minimalist builds, and seeing what can be accomplished with almost nothing is always inspirational. If you’re not familiar with his work, check out his cardboard and paperclip CNC plotter, his tin can encoders, or his plasma-powered printer.

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Giant CNC Machine Measures A Full Cubic Meter

August 8, 2021 by 32 Comments

There are plenty of designs for table-top 3D printers, engravers, and general CNC machines out there. However, if you wanna build big things and build them fast, sometimes you need a machine that can handle bigger jobs. This gigantic 1x1x1 m 5-axis CNC machine from [Brian Brocken] absolutely fits the bill.

The build relies on 3D-printed components and aluminium tubing to make it accessible for anyone to put together. [Brian] notes that 25×25 mm tubing with a 2 mm wall thickness does an okay job, but those aiming to minimize deflection would do well to upgrade to 5 mm thickness instead. Stepper motors are NEMA 23 size, though the Y-axis uses a pair of NEMA 17s. This is necessary to deal with the immense size of the machine. Control is thanks to an Arduino Mega fitted with a RAMPS board, running the Marlin firmware.

The plan is to use the machine to test out a variety of CNC machining techniques. It could make for a great maxi-sized 3D printer, and should be able to handle some basic 5-axis milling of very soft materials like foams. This might seem silly on the face of it, but it can be of great use for mold making tasks.

We’ve seen giant CNC routers built before, too, and they can readily be put to great use. Video after the break.

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Build That Catan Board You Designed

July 30, 2021 by 5 Comments

A couple of months ago, we posted about the one day design [Sam March] did of an electronic Settlers of Catan board. Now he’s released a video with the second half. His first video was about the design of the game, specifically the electronic components. In this video, [Sam] takes us through the physical build of the board.

A couple of visits to his local maker space allows him to cut both the wooden parts of the board, as well as the acrylic hexes that go on top of each piece. Even with a CNC machine, there’s still some clean-up that needs to be done. After cleaning up the edges of the wood with a chisel and staining it, it’s time to put the circuit boards in, wire them up and program them. The build includes a dice roller – pushing a button shows the number rolled by lighting up the tiles in the form of the rolled number. The final touch is having some friends over to actually play the game.

Between the design process in the last article and the build process in this one, we get a good look at the way [Sam] designs things from beginning to finished product. Take a look at our previous article on [Sam]’s design as well as some other Catan articles.

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Workshop Tools Are Available In First-Class

July 28, 2021 by 12 Comments

Most of dream of having a fully-stocked shop with all of the tools needed to build our projects, at least if we don’t already have such a shop. In the meantime, a lot of us are hacking together our own tools and working on whatever bench space might be available to us. While [Emiel] aka [The Practical Engineer] has an envious shop to work from, his latest project goes to show how repurposing some aircraft-grade equipment can result in a high-quality toolbox for himself, without shelling out for any consumer-level solution. (Video, embedded below.)

The core of his workshop cart build is actually a recycled food service cart from an airline. While the original probably only housed some soft drinks and ice, this one has been kitted out to be much more functional. Since [Emiel] is using this to wheel around his machine shop, he used a CNC machine to cut out slots in black MDF sheets which would hold his drill bits, taps, and other tools. Working with MDF on a CNC machine turned out to not be as simple as he thought, since the MDF would separate and break away unless the CNC tool heads were operated in a specific way.

The build also includes several buckets for other tools, and a custom enclosure for the top of the cart specifically built for his machine tools’ tools to sit while he is working. It’s certainly a more cost-effective solution to a wheeled shop toolbox than buying something off-the-shelf, and a clever repurposing of something which would have otherwise ended up in a landfill. [Emiel] is no stranger to building any tools that he might need, including this custom belt sander built completely from the ground up.

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Automatic Coil Winder Gets It Done With Simple Hardware And Software

July 25, 2021 by 11 Comments

We’ve grown to expect seeing mechatronics project incorporate a standard complement of components, things like stepper motors, Arduinos, lead screws, timing belts and pulleys, and aluminum extrusions. So when a project comes along that breaks that mold, even just a little, we sit up and take notice.

Departing somewhat from this hardware hacking lingua franca is [tuenhidiy]’s automatic coil winder, which instead of aluminum extrusions and 3D-printed connectors uses simple PVC pipe and fittings as a frame. Cheap, readily available, and easily worked, the PVC does a fine job here, and likely would on any project where forces are low and precision isn’t critical. The PVC frame holds two drive motors, one to wind the wire onto a form and one to drive a lead screw that moves the form back and forth. An Arduino with a CNC shield takes care of driving the motors, and the G-code needed to do so is generated by a simple spreadsheet that takes into account the number turns desired, the number of layers, the dimensions of the spool, and the diameters of the wire. The video below shows the machine going through its paces, with pretty neat and tidy results.

Being such a tedious task, this is far from the first coil winder we’ve seen. Some adhere to the standard design language, some take off in another direction entirely, but they’re all instructive and fun to watch in action.

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CNC Saves Water Cooling Setup

July 17, 2021 by 9 Comments

A classic problem. You have a new CPU and a 15-year old water cooling system. Of course, the bracket doesn’t fit. Time to buy a new cooler? Not if you are [der8auer]. You design a new bracket and mill it out of aluminum.

Honestly, it might seem overkill, but it makes sense. After all, no matter how new the CPU is, using water to cool it still works the same way, in principle.

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Tales From The Global Chip Shortage: Smoothieboard

July 17, 2021 by 27 Comments

The semiconductor shortage sparked by the pandemic is showing no signs of slowing down. Although auto manufacturers were some of the first affected, the shortage has now spread and is impacting all sorts of projects, including the Smoothieboard open-source CNC controllers.

[Chris Cecil] walks through the production woes they’ve had over the last few months. It began this spring with a batch of the V1.1 boards. The prices of some of their chips started jumping, and then they were informed that the microcontroller that serves as the brains of the Smoothieboard was only available for five times the old price. In the end, they placed a smaller order, and V1.1 Smoothieboards will likely be scarce until the microcontroller’s price returns to normal.

Getting V2 of the boards into production has been even more difficult. Just weeks before the final prototype, it was discovered that the LPC4330 microcontroller the V2 was built around was also sold out worldwide. With the shortage in mind, a hole was left in the layout of the final version of V2 so that they could finish the design around whatever microcontroller they were able to get. In the end, they were able to lock down a supply of STM32H745 controllers, which are actually substantially more capable than the original device.

If you’re interested in the origins of the chip shortage, this article from January is a good place to start. This isn’t the first time parts shortages have wreaked havoc on the world of electronics—does anyone remember the global resistor shortage of ’18?