Vibrations lead the way

Demonstrator manufactured using ultrasonic welding.
(c) feelSpace

A navigation belt helps visually impaired people to reach their destination. You enter the route you want to take via an app, press “start” and the belt guides you in the right direction like a compass. The German Institutes of Textile and Fiber Research Denkendorf (DITF) have developed a contacting process with which this orientation aid – and e-textiles in general – can be produced more economically and conveniently.

When you have to turn into a street, the naviBelt® from the company feelSpace vibrates. It signals which direction you are facing and thus helps you find your way not only outside, but also indoors.

This is ensured by 16 vibration elements arranged around the belt. The project partner AMOHR developed a special conductive belt for this purpose, which is comfortable to wear thanks to its high elasticity on the one hand and enables contact with the vibration elements thanks to integrated stiffeners on the other. In the conventional method, the contacts are soldered.

The navigation belt helps with orientation
The navigation belt helps with orientation. (c) feelSpace

The team around Tobias Hecht has developed a process for the production of e-textiles that has previously been used for contacting microchips: ultrasonic welding. Compared to a soldering process, the contact points can be significantly reduced in size and the contacts are fixed with pinpoint accuracy. During soldering, the soldering material is melted and the contact points are heated. The hot solder melts, resulting in a relatively large heat input. The flowing of the solder also creates unwanted stiffening away from the contact point, which impairs the function of e-textiles in particular. Ultrasonic welding generates less heat, which protects the material.
Ultrasonic welding also has health and environmental benefits compared to soldering. Solder is mixed with flux, which produces harmful vapors that have to be extracted and filtered.

The research project was funded as part of the Central Innovation Program for SMEs (ZIM).

Project partners:
feelSpace GmbH, Osnabrück
AMOHR Technische Textilien GmbH, Wuppertal

Contact for scientific information:

Dr.-Ing. Valérie Bartsch
Dep. Head of Technology Center E-Textiles & Acoustics
+49 (0)711 93 40-285
valerie.bartsch@ditf.de

Tobias Hecht
+49 (0)711 93 40-557
Tobias.hecht@ditf.de

https://www.ditf.de/de/

Media Contact

Sabine Keller Presse- und Öffentlichkeitsarbeit
Deutsche Institute für Textil- und Faserforschung Denkendorf

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