arduino-seismic-sensor

Detecting Seismic Waves With A Piezo Element

While we normally see piezo elements being used to output audio, [Veedo] thought that they could be used in a more useful manner. He bought way too many piezo film tabs and decided to use them to build a makeshift seismic sensor.

The piezo tabs came with weights attached at one end, though while testing them, he found that they more or less only detected vibrations with frequencies in the KHz range. Since earthquakes tend to produce vibrations in the 30-80 Hz range, he had to tweak his setup to detect the proper frequencies. To do this, he attached a weight made of a screw and washers, checking the output signals on his oscilloscope until the dominant sensed frequencies were in the range of 40 Hz.

The sensor was attached to a breadboard, then wired through a charge amp to create a small AC signal, which floats on 2.5Vdc. The bottom half of the wave is chopped off with a diode, after which it is fed into an Arduino Mega. The seismic data is then pushed up to his Pachube account for storage, though he can view the feeds locally via the a web server programmed into the Arduino.

We’re not sure how much advanced notice this sort of setup would give you in the event of an earthquake, but it seems like a fun project to build either way.

Hackaday Links: December 11, 2011

Drilling square holes

We’re still a bit baffled by the physics of this, but apparently it’s possible to drill a square hole with a round bit. This video shows square holes being milled using a cutter which is offset from the center of the bit. [Thanks Jordan]

LED Motorcycle headlight driven by mains

[William] found a way to use a big capacitor and bridge rectifier to run this H4 LED headlight bulb in a mains sconce lamp.

Electronic slide whistle

Here’s an electronic instrument that [Dorian] made. It uses a linear potentiometer and a button and works much like a slide whistle would.

Robot rocks out to Daft Punk

[Adrian] didn’t just make a robot arm out of CD cases and a mints tin. He built the arm, then made a music video featuring it.

More light-pipe sensor experiments

[Uwe] has been working on an input sensor using a flexible light tube. It is a similar idea to these optical flex sensors, but [Uwe] tried several variations like filling the tube with alcohol.

A Little Fire Breathing Pony To Call Your Own

[Lvl_joe] has been having a little fun with fire and an animatronic pony. The skeletal horse seen above is a child’s toy denuded of its original plush shell. That’s a good thing, because those synthetic fibers don’t play very nicely with flames. The toy originally retailed for around $300 bucks, but if you’re lucky, like [Joe], you can get one second-hand for $25 or less.

Since the horse is already motorized, it’s not too hard to patch into the drivers. Here an Arduino is used to take input from a Wii Nunchuck, letting you swing the fire sprayer to and fro. A grill igniter makes sure it’s not just spraying automotive starter fluid everywhere. You can hear the click of that tiny spark repeatedly firing in the demo video after the break. The starter fluid comes in an aerosol can. A custom trigger system holds the can in a PVC pipe, and actuates the valve with a Bowden cable.

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Nine Not-so-easy Steps To Build A Singing Tesla Coil

We love a good Tesla coil music performance, but have never really considered building our own. After reading [TheHomebrewGuru’s] guide to musical Tesla coils we’re still not considering it. Whether or not you’re going to undertake the project, his massive writeup is worth a look.

The tutorial begins at the beginning, with a bit of background on these devices, including what they are, where they came from, and the electrical theory behind them. From there it’s on to the build. This isn’t a go-out-and-buy it type of project. You’re going to need some ingenuity to hunt down parts that will work, and will work with each other.

The image above shows a partially built device, using sheet metal ductwork covered in foil tape as the torroid at the top. The column is wrapped in wire, forming the secondary coil, and the wooden base is ready for the installation of the primary coil. Electronics will be housed between the two wood discs of the base, with a TI Launchpad board driving the music part of the hack.

There isn’t a good demo video of this playing music. But you can get the idea if you look back at the head-mounted tesla coil which did a great job of pumping out the tunes.

[Ian] Shops Akihabara

Hackaday alum and Dangerous Prototypes founder [Ian Lesnet] is in Japan and he’s been spending a lot of time at Akihabara Electric Town. For those that don’t recognize the name, this is an electronic components extravaganza with buildings packed full of small shops each specializing in different merchandise. For instance, we love this picture of a shop that carries every kind of protoboard, breakout board, and copper clad sheet imaginable. The stall next door might have nothing but LEDs, or be full of cords for every purpose.

We’ve been following [Ian’s] regular tweets about the trip. Luckily, he just posted a roundup of the Akihabara posts. Surprisingly, he restrained himself to purchasing just a few items. Part of this is a limit on the amount of stuff he can get back to the States with him. The other reason is that the prices are not necessarily less than you’d find in a catalog. He mentions that the nice thing is you can see the parts before buying them. This is useful for sizing knobs, transformers, cases, etc.

The most exciting thing in his bag is a half-dozen nixie-like VFD tubes for just $12. How much would you give to have this shopping attraction down the street from you?

If you’re interested in a video tour of Akihabara check out this one from the Tokyo Hackerspace.

[via @dangerousproto]

Weekly Roundup 12/10/11


In case you missed them the first time, here are our most popular posts from the past week.

In first place is a post that made our mothers’ wash our mouths out with soap. It is a periodic table of swearing!

Up next is a post about a micromouse robot that can run a maze faster than you would think is possible. Watch out lab rats, it’s gunning for your job.

Are regular violins too low tech? Would you rather play an instrument that could survive a few minutes with Chuck Norris and still keep playing the sweetest melodies? [Ken] created a violin out of carbon fiber that fits the bill.

Want to brake some aluminum? (or bend for the white collar folks out there.) In this post, you can see [Rupert’s] build where he has created a metal brake out of little more than bamboo and some hinges.

Last but not the least is [Zach’s] build that changes the brightness of his Christmas tree lights based on the pitch of the notes from the Star Wars theme.

R/C Blimp Uses A Party Balloon For Lift

Here’s a really tiny r/c blimp that doesn’t need several cubic feet of Helium to get off the ground.

Instructables user [masynmachien] has been building r/c blimps for over a decade now, and this latest build is meant to have the same specs as this nanoblimp. The build is based on an 11-inch party balloon that can provide about 11 grams of lift. This doesn’t allow for much leeway in terms of weight, so [masymachien] used hacked-up servos for the motors.

The blimp is an exercise in saving weight – just about every component that can be removed from the build is thrown away. The results are pretty impressive. The entire blimp weighs about 10 grams on the ground. [masynmachien] also tried a 14-inch balloon with an 808 key fob camera with very good results.

The blimp looks pretty good when flying around a room. [masymachien] seems to have a lot of control from a minimal component count. You can check out the party blimp in action after the break.

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