Precision at every turn The Icelandic company Össur measures components with complex geometries with ZEISS solutions and thus guarantees the quality of its high-tech prosthetics.

Icelandic company Össur would like to enable people who are missing a limb to live without limitations. Therefore, the prosthetics developed and manufactured in Reykjavik are true high-tech products. To ensure the perfect interaction of the numerous components, Össur uses measuring machines from ZEISS.

How Össur succeeds with ZEISS Solutions:
ZEISS CALYPSO
Success:
  • Measurement of components with complex geometries
  • Elimination of error-prone manual measurements
  • Faster analysis and documentation of measurement data

Coordinate Measuring Machines Guarantee the Quality of High-Tech Prosthetics at Össur

Challenge: demanding geometries

A prosthetic leg carries its wearer one million steps every year. To ensure that this is not only possible, but also comfortable, the generally small and light components of the prosthetics must be very strong. This also makes the tolerances very tight: just 10 micrometers for some of the components of computer-controlled knees. Quality Assurance requires precise measuring tools to ensure compliance with the strict specifications. These instruments must also be able to correctly display complex geometries. The artificial knees, for example, feature concave and convex surfaces and cannot be correctly measured manually.

"My new leg helped me to regain a bit of the quality of life that I had lost," says orthopedic technician Lukas Kalemba, who lost his leg 10 years ago
"My new leg helped me to regain a bit of the quality of life that I had lost," says orthopedic technician Lukas Kalemba, who lost his leg 10 years ago
Product designer Guðlaugur Ólafsson conducts measurements with the ZEISS CONTURA. He is one of the Össur employees wearing an artificial leg himself
Product designer Guðlaugur Ólafsson conducts measurements with the ZEISS CONTURA. He is one of the Össur employees wearing an artificial leg himself

The solution: two coordinate measuring machines

For random sampling measurements, Össur relies on two measuring machines from ZEISS: the ZEISS CONTURA coordinate measuring machine and the ZEISS O-INSPECT multisensor measuring machine. "When all machine tools are running in production, we use them to measure at least 17 different parts every hour," says Ásgeir Páll Gústafsson, Quality Manager and expert in coordinate measuring machines at Össur. The measuring technicians prepare the measurement programs and clamping devices so that their colleagues can position their workpieces properly on the coordinate measuring machine and select the corresponding measuring program. The sensor then automatically scans the workpiece and determines the defined form and location data. Össur has drastically reduced the number of measurements with manual measuring equipment since the acquisition of its first coordinate measuring machine in 2004.

"Just because you lose a leg, doesn't mean you have to stop living. This is what we strive for."

Quality Manager Ásgeir Páll Gústafsson

The benefit: production and measurement of complex components

Complex knee components with curved surfaces that Össur had to purchase for a long time are now made by the company. Furthermore, employees had to invest a considerable amount of time for the manual measurements. Moreover, ZEISS PiWeb analysis software that has been in use since 2013 has simplified more than just documentation. Trends in data sequences can be quickly recognized and visualized, enabling employees to quickly draw conclusions about machining processes. The insights provided by the measurement data thus also contribute to the improved quality of the final product. It is this quality that helps Össur's customers stand on two legs.

The software ZEISS CALYPSO was one of the reasons why Össur chose a second ZEISS machine
The software ZEISS CALYPSO was one of the reasons why Össur chose a second ZEISS machine
About Össur

Össur Kristinsson, a young man from Iceland, was dissatisfied with his cumbersome artificial leg and wanted a better solution. He opened a small workshop in Reykjavik in 1971 and quickly invented the silicon liner, a new type of connection between the body and prosthetic, that is now known around the world. In the space of just two decades, the tiny workshop became a global player listed on the Copenhagen stock exchange and with a current workforce of 2,3000 people In Reykjavik and 17 other sites all over the world, it develops, produces and distributes prosthetics and other orthopedic products for people suffering from arthrosis or injuries.