Tool Hacks

3036 Articles

Iron Pipe Makes A Great Workbench

May 11, 2020 by 41 Comments

It’s a frequently encountered problem in any workshop; how do you make a bench? And once you’ve made a bench, how do you put it on wheels to move it about? [Eric Strebel] needed a cart for his laser cutter, so he designed his own in an unexpected material: malleable iron pipe.

The attraction of iron pipe is its ready availability and ease of assembly. [Eric] created a sturdy table complete with a worktop made from a solid door in a very short time. T pieces and joiners were used, along with a hefty set of flanges for the tabletop itself. The casters are the expanding stem variety, with a compressed rubber insert expanding to hold them securely in place.

The result as can be seen in the video below is a really neat trolley for the cutter, followed quickly by another workbench. It would be interesting to know more about this material, parameters such as its wall thickness and lateral strength, because in a table without any cross-bracing it becomes important to avoid an untimely collapse.

The most common material for benches seems still to be wood, indicating that for such a technophile community we can be surprisingly conservative in our choices. Sometimes though, benches are made from the most surprising things.

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No More Floppy Drives For This Agilent Scope

May 10, 2020 by 28 Comments

When [kiwih] picked up an Agilent 54621A scope, he was amused that it had a floppy disk. At one time, it was high-tech to use a disk to transfer scope data to your computer. Today, not so much. However, on the back was a serial port. Surely it was possible to read data from there. It is, and what results is a nice walkthrough of finding the port’s info and interfacing with it using Python.

Normally, you’d use the included BenchLinkXL software to grab data from the port, but that software is so old it would not run under Windows 10 or Wine. Searching didn’t turn up much on the serial port, but it did locate a manual for a similar Agilent scope. That manual wasn’t too helpful since it assumed you were connecting via a LAN or USB. However, it did make reference to an older model that was also similar and that was the key to finding a manual that did explain the serial port protocol.

The command set looks suspiciously like SCPI — Standard Commands for Programmable Instruments — which is a layer on top of the GPIB protocol. Many scopes speak that language, so that’s not surprising. That also means if you are in the mood to communicate with an SCPI scope, you might find the code useful, even if you don’t use a serial port or have this exact Agilent model.

SCPI has a lot of uses. For example, try talking to your scope. The cheap Rigol and similar scopes usually have SCPI and you can control and read them using the same kind of techniques.

No Corners Were Cut On This Arduino Circle Cutter

May 8, 2020 by 9 Comments

Hackers always have their eye out for a good deal, so when [Gadget Reboot] saw a good price on square stickers he had to pull the trigger. There was just one problem: his logo is a circle. He could have rectified the problem with a pair of scissors on a lazy afternoon, but we think building an elaborate circle cutting machine was a much better use of his time.

But this project isn’t just for the Giotto wannabes. Even if you don’t find yourself in need of an infinite supply of perfect paper circles, the video after the break provides an excellent case study in getting stepper motors to do your bidding; whatever that might be. [Gadget Reboot] walks the viewer through the design and construction of a dual stepper motor controller that could be used for a multitude of tasks.

With an onboard Arduino Pro Micro, OLED display, and rotary encoder, this controller just needs some custom software to make your CNC dreams come true. [Gadget Reboot] is even using low-cost optical endstops in this build, which are a great non-contact way of making sure your machine doesn’t go out of bounds. That’s particularly important when the machine happens to be wielding a razor blade.

If you’re a thoroughly modern hardware hacker who prefers using a web browser to twiddling knobs, then perhaps you’d be interested in the WiFi enabled stepper motor controller we covered recently.

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Wooden Sheet Metal Press Tools Make Steel Toecaps

May 7, 2020 by 28 Comments

If you have ever looked closely at a typical mass-produced automobile, you will be familiar with pressed-steel panels. Complex curves can be repeated thousands of times over, by putting a sheet of steel between shaped tooling in a press and applying huge force. The same work that would take a skilled panel beater weeks to do by hand, in a second. It’s something [Stuff Made Here] tackled when he wanted to wear a set of Crocs in the workshop, and needed to make the tooling to produce them in his hydraulic press. The resulting video which we’ve posted below the break shows his learning curve, and along the way is a handy primer in sheet metal pressing.

We watch as he discovers the properties of sheet metal under the stress of pressing, how it wrinkles and folds, and how the tool needs careful design and the sheet needs to be securely clamped in place to prevent this. The big surprise is that his tooling is made from CNC-machined wood, while we’re sure that it would wear given repeated use it seems that the forces on the tool are not such as to destroy this material. In the end he’s produced a multi-part tool including both halves of the press tool, a machined guide for the moving part, and a set of substantial sheet metal plates to constrain the material. The steel toecap application may not be everyone’s first idea when it comes to sheet metal forming, but we’re sure this technique could find application in many other projects. It’s a territory into which we’ve edged in the past, but never with pressings this complex.

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Scopetrex Is A Game Console… For Your Oscilloscope!

May 7, 2020 by 35 Comments

You’ve always wanted a game console at your bench, but maybe you haven’t had space for a monitor or TV set? Wouldn’t it be useful if the screen you do have on your bench could also play games? [Tube Time] has fixed this problem, with Scopetrex, a vector graphic console for your oscilloscope. In fact, it’s better than just a console, because it’s a clone of the legendary Vectrex, the vector-based console with built-in CRT screen from the 1980s.

The board itself is a slightly enhanced version of the original, offering not extra functionality but the ability to substitute some of the parts for more easily found equivalents. It gives full control over display size and brightness, can use the cheaper 6809E processor and AY-3-9810 sound chip if necessary, and only needs a single 5 volt supply. There’s also a custom controller board, which is handly Vectrex-compatible. All you will need to play Vectrex games on your ‘scope once you’ve built this board, are a copy of the Vectrex ROM, and some games.

The Vectrex holds an enduring fascination for our community, and has appeared here many times. Particularly memorable is a CRT replacement, and then of course there’s the never-released mini Vectrex prototype.

Thanks [Justin List] for the tip.

Scratch Built Magnetic Vise Stays Where You Need It

May 1, 2020 by 19 Comments

For those who might not have run into one before, a magnetic vise is used when you want to quickly anchor something to a metal surface at an arbitrary position. They’re often used to hold the workpiece down when machining, and can be a real time saver if a lot of repositioning is involved.

[Workshop From Scratch] recently wanted to put together one of these handy pieces of gear, and as we’ve come to expect from his channel, the finished product is an absolute beast. Starting with little more than scraps of metal, the video after the break takes the viewer on a fascinating journey that ends with some demonstrations of the vise in action.

Conceptually, this build is relatively simple. Start with a vise, put a hollow base on it, and fit it with powerful electromagnets that will anchor it down once you flip the switch. Technically you could just build a magnetic base and bolt a commercially available vise onto it, but that’s not how [Workshop From Scratch] does things.

Every element of the build is done by hand, from the pattern cut into the jaws to the t-handle nut driver that gets adapted into a very slick crank. Of particular interest is how much effort is put into grinding down the surface of the electromagnets so they are perfectly flush with the base of the vise. Incidentally, these beefy electromagnets were salvaged from automotive air conditioning compressors, so you might want to add that to your junkyard shopping list.

Eagle-eyed readers might recognize the surface [Workshop From Scratch] uses the vise on as the custom drill press table he built a few months ago. These videos are not only reminders of what you can accomplish when you’ve mastered the use of a few common tools, but just how much design and thought goes into the hardware many of us take for granted.

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A Custom Saw Designed For Close Quarters Making

April 29, 2020 by 3 Comments

It probably goes without saying that we’d all love to have a huge, well-appointed, workshop. But in reality, most of us have to make do with considerably less. When trying to fit tools and equipment into a small space you need to get creative, and if you can figure out a way to squeeze multiple functions out of something, all the better.

Wanting to get as much use out of his space as possible, [Chris Chimienti] decided that his best bet would be to design and build his own folding combination table. Using interchangeable inserts it can switch between being a table saw and a router, and with its extendable arms, also serves as a stand for his miter saw. Of course when not cutting, it makes a handy general purpose work surface.

In the videos after the break, [Chris] takes viewers through the design and construction of what he calls the “Sinister Saw”, which is made somewhat more complicated by the fact that he obviously doesn’t have a table saw to begin with. Cutting out the pieces for the table itself and the panels that would eventually become home to the router and circular saw took some careful work with clamps and saw horses to make sure they were all perfectly square.

But the wooden components of the Sinister Saw are only half of the story. The table is able to extend by way of an aluminum extrusion frame, and there are numerous 3D printed parts involved for which [Chris] has provided the STL files. We particularly like the box that holds the emergency stop button and relocates the tool’s battery to the front panel, which looks to be an evolution of his previous work in 3D printing cordless tool adapters. We could certainly see this part being useful on other projects that utilize these style of batteries.

In the other extreme, where you want to build your own tools and have plenty of space, you could try making everything out of giant slabs of stone.

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