3D-printed prosthetics promise cheap robot limbs for all

Tokyo startup Exiii is trying to dramatically cut the cost of fake but functional hands

The Hackberry robotic hand is seen at startup Exiii in Tokyo June 5, 2015. Materials for the 3D-printed hands, designed for amputees and people born without hands, only cost around US$200.

The Hackberry robotic hand is seen at startup Exiii in Tokyo June 5, 2015. Materials for the 3D-printed hands, designed for amputees and people born without hands, only cost around US$200.

If you lose your hand in an accident, a prosthetic could cost well over $US10,000. But 3D printing holds out the promise of making simple replacement hands available for far less.

In a closet-sized room in Tokyo's Akihabara electronics district, the founders of robotics startup Exiii pore over the designs for their latest prototype. It's a basic mechanical hand and forearm made from materials that only cost about $200. It's also open source.

The Exiii Hackberry, as it's called, has a flexible wrist, partially motorized fingers and low-cost parts such as an Arduino controller and a digital camera battery, all housed in a white 3D-printed plastic shell.

During a demo, co-founder Genta Kondo strapped an infrared distance sensor to his inner forearm and plugged it in to the Hackberry. The sensor measures the distance to the skin, so when a muscle contracts, it detects a change and sends a signal to the Arduino board. The sensor can be attached on a user's upper arm, for instance, so that flexing biceps would activate the hand.

After a few false starts, Kondo flexed his forearm by making a fist and the fingers on the Hackberry closed, mimicking the movement. Although the servomotors emit a fairly loud screech, the grip is delicate enough to hold a business card without crushing it.

Compared to the previous, fourth-generation prototype hand, the Hackberry is now more compact and functional, with the battery use time extended from two hours to a full day. The number of servomotors has been reduced from six to three, one for the thumb, one for the index finger and one for the other three fingers, to keep it as light and simple as possible. Its plastic can now be printed on a consumer-grade 3D printer instead of an industrial one.

In experiments, the Hackberry has helped two Japanese without hands, as seen in a promo video where they are doing everyday things like tying a shoelace, turning the pages of a magazine and zipping up a jacket.

"The strongest point about the Hackberry is that it can pinch tiny objects," said Kondo, a 28-year-old former Sony roboticist who co-founded Exiii last year.

Kondo and colleagues have experimented with prototypes that used electrical muscle signals in the skin, relayed via smartphone, to control the finger motors. But they're now focused on using the infrared muscle sensor. It's buggy, often failing to work during the demo, but it's cheap and simple to set up. Last month, Kondo and his colleagues put the CAD files for the hand online and hopes to attract volunteers to help refine such prosthetics.

Exiii is one of several startups that are designing affordable appendages for people who either lost a hand in an accident or were born without one. The hacker approach also means that unlike high-cost, mass-market prosthetics, the 3D-printed hands can be quickly repaired and have custom designs and features such as NFC modules in the fingertips, which could do everything from unlocking smart locks to authenticating mobile payments.

The company recently received a $200,000 grant from Google, made via prosthetics startup Mission Arm, to develop its idea. The search giant also funded the E-Nable project to create even simpler 3D-printed hands for kids who have a palm and some degree of wrist motion.

Exiii plans to use its funds to help make the Hackberry a lot more robust so it's ready for mass adoption. The cost hasn't been decided yet but the company will push it on a nonprofit basis.

"I could see these being made by people around the world, using 3D printers set up in each town," Kondo said, adding that regulations for medical devices would have to be fully met for the project to be successful.

Tim Hornyak covers Japan and emerging technologies for The IDG News Service. Follow Tim on Twitter at @robotopia.

Join the newsletter!

Error: Please check your email address.
Rocket to Success - Your 10 Tips for Smarter ERP System Selection

Tags GoogleExiiirobotics

Keep up with the latest tech news, reviews and previews by subscribing to the Good Gear Guide newsletter.

Tim Hornyak

IDG News Service
Show Comments

Most Popular Reviews

Latest Articles

Resources

PCW Evaluation Team

Ben Ramsden

Sharp PN-40TC1 Huddle Board

Brainstorming, innovation, problem solving, and negotiation have all become much more productive and valuable if people can easily collaborate in real time with minimal friction.

Sarah Ieroianni

Brother QL-820NWB Professional Label Printer

The print quality also does not disappoint, it’s clear, bold, doesn’t smudge and the text is perfectly sized.

Ratchada Dunn

Sharp PN-40TC1 Huddle Board

The Huddle Board’s built in program; Sharp Touch Viewing software allows us to easily manipulate and edit our documents (jpegs and PDFs) all at the same time on the dashboard.

George Khoury

Sharp PN-40TC1 Huddle Board

The biggest perks for me would be that it comes with easy to use and comprehensive programs that make the collaboration process a whole lot more intuitive and organic

David Coyle

Brother PocketJet PJ-773 A4 Portable Thermal Printer

I rate the printer as a 5 out of 5 stars as it has been able to fit seamlessly into my busy and mobile lifestyle.

Kurt Hegetschweiler

Brother PocketJet PJ-773 A4 Portable Thermal Printer

It’s perfect for mobile workers. Just take it out — it’s small enough to sit anywhere — turn it on, load a sheet of paper, and start printing.

Featured Content

Latest Jobs

Don’t have an account? Sign up here

Don't have an account? Sign up now

Forgot password?