A DaVinci Screw-Cutting Machine

September 25, 2024 by 5 Comments

It’s not news that Leonardo DaVinci was somewhat ahead of his time, and over the centuries many of the creations in his sketchbooks have been created and proved quite functional. The guys from the YouTube channel How To Make Everything have been looking at one such sketch, a screw thread-cutting machine. At first glance, it seems a little flawed. Threads are hard to make by hand, and you can see that this thread-cutting machine needs two identical threads operating as a reference to make it work. However, as the guys demonstrate, you can create threads by hand using simple methods.

Starting with an offset blade mounted on a block with a hole through it, a dowel can be scribed with a starter thread. This can then be worked by hand to cut enough of a groove for the application. They demonstrated that the machine was viable using nothing but wood for construction. A metal blade was mounted, and some preload force was applied to it with a spring. The dowel to be cut was loaded, and the machine ran back and forth enough times to create a very nice-looking screw thread. And once you’ve made two identical threaded dowels, you can use them to upgrade the machine or even build a second. Once you have a repeatable way to make such threads, all kinds of applications become more accessible. Need a bench vice? No problem now!

Whilst the demonstration doesn’t precisely follow the plans laid out by the master inventor, they aren’t all that clear on the cutting tool after all, it’s nice to see people still wanting to build his ideas, and we’ll certainly be following along.

If you like these “from scratch” builds, you’ll like this other one. Leonardo’s work wasn’t just about machines; he was also very interested in science. Here’s a recreation of his demonstration of gravity as a form of acceleration.

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Reviving A 15-Year Old Asus EeePC With Modern MX Linux

September 25, 2024 by 67 Comments
Welcome back to 2010 and the Asus eeePC Netbook, Seashell series. (Credit: Igor Ljubuncic)
Welcome back to 2010 and the Asus eeePC Netbook, Seashell series. (Credit: Igor Ljubuncic)

It’s often said these days that computers don’t become outdated nearly as quickly as they did in the past, with even a decade-old computer still more than capable of handling daily tasks for the average person. Testing that theory, [Igor Ljubuncic] revisited the Asus eeePC which he purchased back in 2010. Although it’s not specified exactly which model it is, it features an Intel Atom N450 (1 core, 2 threads) running at 1.67 GHz, 1 GB of 667 MHz DDR2 and a 250 GB HDD, all falling into that ultra-portable, 10.1″ Netbook category.

When new, the netbook came with Windows 7 Starter Edition, which [Igor] replaced with Ubuntu Netbook Remix 10.04, which was its own adventure, but the netbook worked well and got dragged around the world on work and leisure assignments. With increasingly bloated updates, Ubuntu got replaced by MX Linux 18, which improved matters, but with the little CPU struggling more and more, [Igor] retired the netbook in 2019. That is, until reviving it recently.

Upon booting, the CMOS battery was of course empty, but the system happily continued booting into MX Linux. The Debian update repositories were of course gone, but changing these to the archive version allowed for some (very old) updates. This raised the question of whether modern Linux would even run on this ancient Atom CPU, the answer of which turned out to be a resounding ‘yes’, as MX Linux still offers 32-bit builds of its most recent releases. A 15 minute upgrade process later, and a 2 minute boot later, the system was running a Linux 6.1 kernel with Xfce desktop.

As for the performance, it’s rather what you expect, with video playback topping out at 480p (on the 1024×600 display) and applications like Firefox lacking the compact density mode, wasting a lot of screen space. Amazingly the original battery seems to still deliver about half the runtime it did when new. All of which is to say that yes, even a ‘low-end’ 2010-era netbook can still be a very usable system in 2024, with a modern OS.

FLOSS Weekly Episode 802: Emba – Layers Upon Layers Of Bash

September 25, 2024 by 1 Comment

This week Jonathan Bennett and and Randal Schwartz chat with Michael and Benedikt about Emba, the embedded firmware analyzer that finds CVEs and includes the kitchen sink! It does virtualization, binary analysis include version detection, and more. Check it out!

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2024 Hackaday Superconference Speakers, Round Two

September 25, 2024 by 1 Comment

It’s honestly amazing the range of fascinating talks we have lined up for this year’s Supercon. From art robots that burp and belch to gliders returning from near-space, from hardcore DSP to DIY PCBs, and sketching with machines, Hackaday’s Supercon is like nothing else out there.

And in case you’re already coming, you don’t have a talk slot reserved, but you’ve still got something that you want to say, please sign yourself up for a Lightning Talk! In the spirit of the Lightning, we’ll be taking submissions up to the absolute last minute, and we will fit in as many short talks as possible, but when it does fill up, we’ll be giving priority to those who got in first.

We’ve got one more speaker announce coming up, and of course our keynote speaker and the badge reveal. Supercon will sell out so get your tickets now before it’s too late. So without further ado, here is our next round of stellar speakers!

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Copper Bling Keeps Camera Chill

September 25, 2024 by 4 Comments

Every action camera these days seems prone to overheating and sudden shutdowns after mere minutes of continuous operation. It can be a real pain, especially when the only heat problem a photographer might face back in the day was fogged film from storing a camera in a hot car. Then again, the things a digital camera can do while it’s not overheated are pretty amazing compared to analog cameras. Win some, lose some, right?

Maybe not. [Zachary Tong], having recently acquired an Insta360 digital camera, went to extremes to solve its overheating problem with this slick external heat sink project. The camera sports two image sensor assemblies back-to-back with fisheye lenses, allowing it to capture 360° images, but at the cost of rapidly overheating. [Zach]’s teardown revealed a pretty sophisticated thermal design that at least attempts to deal with the excess heat, including an aluminum heat spreader built into the case, which would be the target of the mod.

He attached a custom copper heatsink to a section of the heat spreader, which had been carefully milled flat to provide the best thermal contact. [Zach] used a fancy boron nitride heat transfer paste and attached the heat sink to the spreader with epoxy. A separate aluminum enclosure was bonded to the copper heat sink, giving [Zach] a place to mount his audio sync and timecode recorder and providing extra thermal mass.

Does it help? It sure seems to; where [Zach] was previously getting about twenty minutes before thermal shutdown with both cameras running, the heatsink-adorned rig was able to run about six times longer, with the battery giving out first. True, the heatsink takes away from the original sleek lines of the camera and might make it tough to use while snowboarding or surfing, but it’s still more portable than some external camera heatsinks we’ve seen. And besides, the copper is pretty gorgeous. Continue reading “Copper Bling Keeps Camera Chill”

Tech In Plain Sight: Zipper Bags

September 25, 2024 by 23 Comments

You probably think of them as “Ziploc” bags, but, technically, the generic term is zipper bag. Everything from electronic components to coffee beans arrive in them. But they weren’t always everywhere, and it took a while for them to find their niche.

Image from an early Madsen patent

A Dane named Borge Madsen was actually trying to create a new kind of zipper for clothes in the 1950s and had several patents on the technology. The Madsen zipper consisted of two interlocking pieces of plastic and a tab to press them together. Unfortunately, the didn’t work very well for clothing.

A Romanian immigrant named Max Ausnit bought the rights to the patent and formed Flexigrip Inc. He used the zippers on flat vinyl pencil cases and similar items. However, these still had the little plastic tab that operated like a zipper pull. While you occasionally see these in certain applications, they aren’t what you think of when you think of zipper bags.

Zipping

Ausnit’s son, Steven, figured out how to remove the tab. That made the bags more robust, a little handier to use, and it also rendered them less expensive to produce. Even so, cost was a barrier because the way they were made was to heat seal the zipper portion to the bags.

That changed in the 1960s when the Ausnits learned of a Japanese company, Seisan Nippon Sha, that had a process to integrate the bags and zippers in one step which slashed the production cost in half. Flexigrip acquired the rights in the United States and created a new company, Minigrip, to promote this type of bag.

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Cyberpack Puts All The Radios Right On Your Back

September 25, 2024 by 28 Comments

A disclaimer: Not a single cable tie was harmed in the making of this backpack cyberdeck, and considering that we lost count of the number of USB cables [Bag-Builds] used to connect everything in it, that’s a minor miracle.

The onboard hardware is substantial, starting with a Lattepanda Sigma SBC, a small WiFi travel router, a Samsung SSD, a pair of seven-port USB hubs, and a quartet of Anker USB battery banks. The software defined radio (SDR) gear includes a HackRF One, an Airspy Mini, a USRP B205mini, and a Nooelec NESDR with an active antenna. There are also three USB WiFi adapters, an AX210 WiFi/Bluetooth combo adapter, a uBlox GPS receiver, and a GPS-disciplined oscillator, both with QFH antennas. There’s also a CatSniffer multi-protocol IoT dongle and a Flipper Zero for good measure, and probably a bunch of other stuff we missed. Phew!

As for mounting all this stuff, [Bag-Builds] went the distance with a nicely designed internal frame system. Much of it is 3D printed, but the basic frame and a few rails are made from aluminum. The real hack here, though, is getting the proper USB cables for each connection. The cable lengths are just right so that nothing needs to get bundled up and cable-tied. The correct selection of adapters is a thing of beauty, too, with very little interference between the cables despite some pretty tightly packed gear.

What exactly you’d do with this cyberpack, other than stay the hell away from airports, police stations, and government buildings, isn’t exactly clear. But it sure seems like you’ve got plenty of options. And yes, we’re aware that this is a commercial product for which no build files are provided, but if you’re sufficiently inspired, we’re sure you could roll your own.

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