As I am getting more interested in CNCing wood I'll post more about various DIY CNC projects.
My retired father is now a beekeeper so I found Open Source Beehives. Since they don't have LR type of beehives we gave up on the idea of making them or buying a large CNC mill (we would need to do some saving on family level to afford it). Also it keeps my father occupied as he makes the beehives himself by hand from old wood pallets.
Now that team released AKER DIY plant beds you can produce with your CNC from a single sheet of 1200 x 2400 plywood sheet.
Here is the video presentation of the project:
It's an interesting idea and my wife is nagging me for ages that we should start to use some sort of raised beds in our large garden, so maybe I should start to save up to finally buy parts to make my own CNC.
On AKER homepage you will find plans and CNC files for this raised bed and other things like: worm hotel composter, GroWall wall planter, EcoHive top bar hive and EggHouse chicken coop. All files are open source and you can make it yourself if you own a CNC or get them done by someone else.
CNC is very wide field ... so many projects. Can anyone point me where to start with research on how to build CNC big enough to process standard plywood sheet?
Update (16.3.2015.):
AKER is on Indiegogo now with their Print your Urban Farm campaign and it comes with Aker Map http://www.map.aker.me/ application for food sharing.
Here is a video on how 3d printing helps small dogs by allowing veterinarians to practice complex bone surgeries. It is presented by Veterinary Radiology Resident Adrien Hespel of Auburn University.
Articles like this make my girlfriend cry. She loves dogs and hates me spending money on my 3d printing "hobby".
3d model of dog's bones and metal implants
From the source:
At Auburn University, the latest in printing technology is literally going to the dogs, cats and other animals. Auburn's College of Veterinary Medicine is among the first veterinary programs in the United States to use three-dimensional printing and models in advance of complicated surgeries.
A 3D printer builds up objects layer by layer, using various methods to deposit and harden the 'ink' where it is needed. Many materials, including plastic, metal and ceramic can now be printed based on instructions from computer-assisted design programs.In the college's Department of Clinical Sciences, the radiology section has begun using its newly-acquired Makerbot 3D printer to investigate ways to improve surgical planning. In its first week of use, the 3D printer was successfully used to provide a solution for a complicated surgical procedure before the surgery was performed.
"Using the 3D technology proved extremely helpful in planning a surgical procedure for a small dog," said Dr. Don Sorjonen, a professor emeritus of neurology and neurosurgery who has returned to the college as a consultant. "In this particular case, a 1.4 kilogram Yorkshire terrier had an instability of the first and second cervical vertebrae," Sorjonen said. "The joint was not only unstable but also was not aligned properly. Because of the dog's small size, we did not have the proper implants to make the repair. After producing a physical model of the dog's vertebrae using the 3D printer, we could accurately measure the cervical vertebrae and order plates and screws specially suited for the repair. Being able to craft a remedy prior to surgery increased the chances of a successful outcome."
"Thanks to a computer we were able to create a 3D model on a screen, but allowing this model to be printed gives us an excellent tool for communicating with our colleagues and clients," said radiology resident Dr. Adrien-Maxence Hespel."The 3D printer allows the surgeons to evaluate more approaches to solve a problem preoperatively and may help them in deciding which solution is optimal for the patient," Hespel added. "By having a prototype in their hands, surgeons can narrow their choice of surgical implants ahead of time. As the models can be sterilized, they can even be used during surgery as a quick reference."
The printer also has been used to create an anatomy model to study a bone fracture and conduct an equine research project.
As a dog owner (of very very naughty dog) I see the full benefit of this project. I'll build it when it is available (I'v searched around but found no files or instructions). Theoretically it is easy to DIY a simillar project, but I'll wait little bit more ... Actually, my dog has some similarities to Atos, the lead dog tester.
Gokili - my dog waiting for his 3d printed treat dispenser
Scientists have channeled their inner shoe designer for this latest project – and just in time for Spring Racing Carnival. In a horse-ome titanium 3D printing first, our scientists have scanned a race horse’s hooves using a handheld scanner and then, with sophisticated modelling software they designed the perfect fitting, lightweight racing shoe. Four of the customized kicks were printed within only a few hours! “3D printing a race horse shoe from titanium is a first for scientists and demonstrates the range of applications the technology can be used for, although it’s certainly very different from our everyday work,” said our titanium expert, John Barnes.