Update: What You See Is What You Laser Cut

If there’s one thing about laser cutters that makes them a little difficult to use, it’s the fact that it’s hard for a person to interact with them one-on-one without a clunky computer in the middle of everything. Granted, that laser is a little dangerous, but it would be nice if there was a way to use a laser cutter without having to deal with a computer. Luckily, [Anirudh] and team have been working on solving this problem, creating a laser cutter that can interact directly with its user.

The laser cutter is tied to a visual system which watches for a number of cues. As we’ve featured before, this particular laser cutter can “see” pen strokes and will instruct the laser cutter to cut along the pen strokes (once all fingers are away from the cutting area, of course). The update to this system is that now, a user can import a drawing from a smartphone and manipulate it with a set of physical tokens that the camera can watch. One token changes the location of the cut, and the other changes the scale. This extends the functionality of the laser cutter from simply cutting at the location of pen strokes to being able to cut around any user-manipulated image without interacting directly with a computer. Be sure to check out the video after the break for a demonstration of how this works.

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A Handheld CNC Router

Over the last few years, the state of the art in handheld routers has been tucked away in the back of our minds. It was at SIGGRAPH in 2012 and we caught up to it at Makerfair last year. Now, it’s getting ready for production.

Originally called Taktia, the Shaper router looks a lot like a normal, handheld router. This router is smart, though, with the ability to look at a work piece marked with a tape designed for computer vision and slightly reposition the cutter in response to how the user is moving it. A simple description doesn’t do this tool justice, so check out the video the Shaper team recently uploaded.

With the user moving the Shaper router over a work piece and motors moving the cutter head, this tool is able to make precision cuts – wooden gears and outlines of the United States – quickly, easily, and accurately. Cutting any shape is as easy as loading a file into Shaper, calling that file up on a touch screen display, and turning on the cutter. Move the router around the table, and the Shaper takes care of the rest.

Accuracy, at least in earlier versions, is said to be on the order of a hundredth of an inch. That’s good enough for wood, like this very interesting bit of joinery that would be pretty hard with traditional tools. Video below.

Thanks [martin] for the tip.

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Hacklet 57 – CNC Hacks

Everyone’s first microcontroller project is making an LED blink. It’s become the de-facto “Hello World” of hardware hacking.  There’s something about seeing wires you connected and the code you wrote come together to make something happen in the real world. More than just pixels on a screen, the LED is tangible. It’s only a short jump from blinking LEDs to making things move. Making things move is like a those gateway drug – it leads to bigger things like robots, electric cars, and CNC machines. Computer Numerical Control (CNC) is the art of using a computer to control movement. The term is usually applied to machine tools, which cut, engrave, or perform other operations on wood, plastic, metal and other materials. In short, tools to make more things. It’s no surprise that hackers love CNCs. This week’s Hacklet is all about some of the best CNC projects on Hackaday.io!

charliexWe start with [Charliex] and Grizzly G0704 CNC Conversion. [Charliex] wanted a stout machine capable of milling metal. He started with a Grizzly  G0704, which is small compared to a standard knee mill, but still plenty capable of milling steel. [Charliex] added a Flashcut CNC conversion kit to his mill. While they call them “conversion kits” there is still quite a bit of DIY ingenuity required to get a system like this going. [Charliex] found his spindle runout was way out of spec, even for a Chinese mill. New bearings and a belt conversion kit made things much smoother and quieter as well. The modded G0704 is now spending its days cutting parts in [Charliex’s] garage.


makesmithNext up is [brashtim] with Makesmith CNC. Makesmith was [brashtim’s] entry in the 2014 Hackaday prize. While it didn’t win the prize, Makesmith did go on to have a very successful Kickstarter, with all the machines shipping in December of 2014. The machine itself is unorthodox. It uses closed loop control like large CNC machines, rather than open loop stepper motors often found in desktop units. The drive motors are hobby type servos.  We’re not talking standard servos either – [brashtim] picked microservos. By using servos, common hardware store parts, and laser cut acrylic, [brashtim] kept costs down. The machine performs quite well though, easily milling through wood, plastic, foam, and printed circuit boards.


reactronNext we have [Kenji Larsen] with Reactron material processor: Wireless CNC mill. [Kenji] started with a  Shapeoko 2, and gave it the Reactron treatment. The stock controller was replaced with a Protoneer shield, which is connected to the Reactron network via a HopeRF radio module. The knockoff rotary tool included with the kit was replaced with a DeWalt DW660 for heavy-duty jobs, or a quieter Black and Decker RTX-6. A tool mounted endoscope keeps an eye on the work. [Kenji] mounted the entire mill in a custom enclosure of foam and Roxul insulation. The enclosure deadens the sound, but it also keeps heat in. [Kenji] plans to add a heat exchanger to keep things cool while maintaining relative quiet in his shop.

cnc2Finally we have a [hebel23] with DIY Multiplex Plywood CNC Router. [hebel23] wanted to build a big machine within a budget – specifically a working area of  400 x 600 x 100 mm and a budget of 800 Euro. As the name implies, [hebel23] used birch plywood as the frame of his machine. He chose high quality plywood rather than the cheap stuff found in the big box stores. This gives the machine a stable frame. The moving components of the machine are also nice – ball screws, linear bearings, and good stepper controllers. The stepper motors themselves are NEMA-23 units, which should give the CNC plenty of power to cut through wood, plastic, and even light cuts on metal. [hebel23] spent a lot of time on the little details of his CNC, like adding an emergency stop switch, and a wire-chain to keep his gantry control wires from ending up tangled up in the work piece. The end result is a CNC which would look great in anyone’s workshop.

If you want more CNC goodness, check out our brand new CNC project list! Did I miss your project? Don’t be shy, just drop me a message on Hackaday.io. That’s it for this week’s Hacklet, As always, see you next week. Same hack time, same hack channel, bringing you the best of Hackaday.io!

Homemade Camera Stabilizer

We’ve featured quite a few camera gimbals and steady cams here, but this one stands out. For one, [Daniel Rhyoo] was in his sophomore year when he built it. His 2-axis camera gimbal uses brushless DC motors, and is made out of carbon fiber.

[Daniel] machined the carbon fiber parts on a CNC desktop mill and some hand tools. And he also had to teach himself Solid Works to design it. In his slick DIY guide, he starts off by listing the parts and where to source them from, along with the tools needed. Most gimbals use servos for axis movements, which limits the range and do not provide very smooth motion. Brushless motors overcome these limitations allowing a nice, smooth moving gimbal to be built with a wide range of movement. When [Aleksey Moskalenko] introduced the AlexMos brushless motor controller, [Daniel] ordered it out, and then waited until he could get his hands on the right kind of motors. CAD files for all of the machined parts are available for download (.zip file).

He then goes on to blog his build progress, with ample photos to describe the machining and assembly. He does a couple of nice design choices along the way – like using press-nuts to make assembly and dis-assembly easy, and dismantling one of the motors and replacing its shaft with a custom, longer one instead of using a coupler to extend it. At the end, the result is not only a nice looking, light weight rig, but one that works very well thanks to the motors and controller that he used. Check out the video below to see it in action.

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Beest of an RC Toy

Sometimes hackers and makers hack and make stuff just because they can. Why spend hours in a CAD program designing a gazillion gears, brackets and struts? Why cut them all out on a homemade CNC? Why use a PIC and perf board to control everything? Because we can. Well, because [Est] can, rather. He put together this RC controlled beast of a toy with multiple legs and crushing claws.

It’s made out of 6 mm acrylic and threaded rod. The legs are controlled by two DC motors, while the mouth uses two geared steppers. The beast talks to the controller via a pair of 433 MHz transceivers using a protocol similar to how an IR remote talks to a television. A handful of LEDs lights up the clear acrylic, making it look extra scary.

This design is, of course, based on the Strandbeest concept from [Theo Jansen]. It’s a great robotics project because your project doesn’t suffer under its own weight. It’s more like a tracked machine. In fact, we saw a huge rideable version made of metal at BAMF this year. That’s one you just can’t miss!

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We Have A Problem: 3D Printers Are Too Expensive

Hackaday, we have a problem. 3D printing is changing the world but it’s still too expensive to be embraced as a truly transformative technology.

With each passing year, the 3D printing industry grows by leaps and bounds. Food safe PLA is now the norm, with dissolvable and other exotic filaments becoming more mainstream.  New filaments are making it possible to print objects that were not possible before. New CAD software is popping up like dandelions, with each iteration giving novice users a friendly and more intuitive interface to design 3D models. As time marches on, and we look into its future, a vision of the 3D printing world is evident – its only going to get bigger.

3d printerImagine a future where a 3D printer is as common as an ink jet printer in homes all across the world.  A future where you could buy filament from the supermarket down the street, and pick up a new printer from any hardware store. A future where dishwashers, refrigerators and bicycles come with .stl files that allow you to print upgrades or spare parts. A future where companies compete to give the market easy-to-use printers at the cheapest price.

Is this future possible? Not until the technology changes. It’s too expensive, and that’s the problem you’re going to solve. How can you make a 3D printer cheaper? A cheap printer could change the game and make our future a reality.

Where do we need cost savings?

To get you going, here are some parts of common 3D Printers which think need to find cost-saving solutions.


Stepper motors are going to run you about $15 each. Is it possible to use cheaper DC motors with some type of position tracking while keeping the cost down?


Threaded rod is probably the cheapest way to move your XYZ axis. What about couplings and guide rods? Check out how this guy made a CNC out of parts from his local hardware store.


No arduino with Easysteppers here – too expensive. We’ve just seen a super cheap controller a few days ago. If we use something other than NEMA steppers, it will radically change the typical electronic controller for our super cheap 3d printer.


What is the cheapest way to melt and extrude plastic? What about using thermistors in place of thermocouples? Let’s think out of the box with this, and see if we can get away from the typical stepper motor based extruder. Remember, everything is low cost. If we have to sacrifice some resolution, that is OK.

So there you go. Let’s hear your input on the issue. We need to make 3D printers a lot more affordable and we want to hear any ideas you have on the topic in the comments below. Do you think this is in our future and why?

The 2015 Hackaday Prize is sponsored by:

DIY MDF CNC Machine Is Small And Solid

In the world of hobby-level CNC cost and simplicity are usually the name of the game. Using inexpensive and easily found materials makes a big difference in the feasibility of a project. [FreeRider] had built a CNC router before but it was big, flexible and not as accurate as he wanted. He set off to design his own table top router, influenced from other designs found on the ‘net, but also keeping the costs down and ease of build up.

The machine frame is made from 3/4″ MDF and was cut on [FreeRider’s] first router, the JGRO. Notice how all the holes are counterbored for the many bolt heads. It is clear that much attention to detail went into the design of this machine. Aluminum angle act as linear rails on which v-wheel bearings travel. Skate bearings support 5/16″ threaded rod used as lead screws. Lead nuts are tapped HDPE blocks and seem to be doing a satisfactory job with minimal backlash.

[FreeRider] says his new machine is capable of 60 inches per minute travel, double that of his old machine. Since the new machine is stiffer, he’s able to route aluminum and has successfully made some brackets out of 1/8″ plate. He reports the dimensional accurate to be about 0.002-0.003 inches. For more inexpensive MDF-based CNC machines, check out this drawer slide bearing one or this one that uses a drill for a spindle.