English
English
Case Study

3D printing helps GROOVE X make robots that foster love.


groove x

Prototyping made easy. 

The need for quick solutions.

If you think robots have to be impersonal and mechanical, Japanese robot venture GROOVE X wants you to think again. They created “Lovot,” a cuddly family robot. With more than 50 embedded sensors, it can analyse external stimuli, exhibit a variety of cute behaviors and human-like expressions, and nurture the users’ ability to love.

However, its appearance and intricate mechanism must be in perfect unity for it to work at its best, so the prototype development process for Lovot is particularly complicated. GROOVE X couldn’t outsource prototyping because designs change quickly and contractors would always be working with outdated data. “We needed a prototype system that enables quick review of designs that evolve on a daily basis,” said Kaname Hayashi, the CEO and founder of GROOVE X.

With the 3D printers in our office, we can now review the designs and make adjustments in real time.

GrabCAD Print enables data uploading right from the comfort of your own PC, and supports CAD data, which shortens the setup time from 5 minutes to 1 minute.

Fast adjustments through 3D printing.

GROOVE X had the right idea — but the wrong equipment — when they decided to utilise hobbyist desktop 3D printers for prototyping. The printing was inconsistent and didn’t meet the company’s high standards. That’s when they turned to the Stratasys F370™ 3D printer with FDM® printing technology. “Mould stability, speed, and ease of maintenance during moulding of large parts for an extended period are important factors in the decision-making process,” commented product designer Takamitsu Ikoma.

In contrast to the desktop 3D printers, in which printed moulds sometimes deform due to temperature fluctuations, the F370 can print sturdy and complex shapes thinner than 1mm so that the support material can be peeled off with ease. As a result, the removal of support materials takes only five minutes instead of 20. The GROOVE X team can also print mockups that are much larger than the standard mould. “Even large prototypes can be manufactured over the weekend, so that we can review them in the following week. Every one of us can now better focus on the design itself,” notes Ikoma.

Ikoma is also very pleased with the simplicity of GrabCAD Print™ software, which allows the user to directly upload the raw CAD data from the computer. Using GrabCAD Print has shortened the pre-printing process from 15 minutes to just three minutes.

A future to smile about.

The GROOVE X team had such success with the Stratasys F370, they also added an F170™ 3D printer to cater to expanded business and operational needs. Both printers are helping them explore options to help Lovot best connect with humans and relate with a human touch. They’re using the printers to provide a wide variety of accessories, such as clothes, glasses, and horn/tail covers, so that Lovot users can customise the robots to their own preferences.

Exterior designer Sakura Yamamoto appreciates that Stratasys technology offers a colourful moulding technique similar to pixel art that embeds a chip-like colour bit inside the exterior of the transparent frame. Yamamoto can carefully monitor the colour designs and expand the colour variations without constraints. “It is fun to share our opinions to co-create various prototypes!”

The GROOVE X team now considers Stratasys 3D printing solutions to be integral to their development process. “With the 3D printers in our office, we can now review the designs and make adjustments in real time,” commented Ikoma.He plans to manufacture maintenance parts in-house with the 3D printers to reduce inventory risks, and he predicts that 3D printers will play an increasingly important role in the household robot market for years to come.
Not only LOVOT’s main unit, but also its larger charger is prototyped by a 3D printer.

Download the case study

Related Content

future proof webinar banner image with ssys logo.png

Welcome to the Future of 3D Printing

Explore the future of 3D printing with our webinar. Discover innovations, enhance efficiency, and stay ahead in your industry with Stratasys

View more
3D Printed from Nylon-CF10 using Stratasys FDM Technology - 3D Printing Solutions.

Why You Should Consider 3D Printing Soft Jaws Instead of Machining Them

3D printed CNC fixtures such as soft jaws save time and money. Learn more about the benefits of additive manufacturing with Stratasys 3D printing solutions.

View more
The helmet prototype was 3D printed in one build on the Stratasys F370.

Design firm 3D prints to refine ideas with speed.

3D printing prototypes allows CAD to fail fast and produce design iterations quickly or change a product design overnight to meet a customer’s deadline.

View more
future proof webinar banner image with ssys logo.png

Explore the future of 3D printing with our webinar. Discover innovations, enhance efficiency, and stay ahead in your industry with Stratasys

3D Printed from Nylon-CF10 using Stratasys FDM Technology - 3D Printing Solutions.

3D printed CNC fixtures such as soft jaws save time and money. Learn more about the benefits of additive manufacturing with Stratasys 3D printing solutions.

The helmet prototype was 3D printed in one build on the Stratasys F370.

3D printing prototypes allows CAD to fail fast and produce design iterations quickly or change a product design overnight to meet a customer’s deadline.