Life sciences Elettrosystem

Innovative assembly line makes its world debut

Customer benefits

  • Reproducible quality at the highest level
  • Robot-based automation for greater flexibility
  • Significant increase in total capacity
  • Avoidance of errors arising from manual processing
RX160 and TX90 robots at Elettrosystem
The Stäubli RX160 easily copes with the torque created by the quadruple universal grippers at maximum extension.
Stäubli TX90 robot at Elettrosystem
The Stäubli TX90 performs the final quality control and the cutting to length of the tubing.
RX160 and TX90 robots at Elettrosystem
The two Stäubli RX160 and TX90 six-axis robots handling the flexible endotracheal tubes.


Automation of spiral tubing manufacture

Until recently, the manufacture of spring-reinforced tubing was considered to be so complex as to be beyond the scope of automation. Elettrosystem, a system integrator based in Italy, has taken on the challenge and realized the world’s first production line for this sophisticated process, incorporating four Stäubli 6-axis robots.

Intubation is a standard medical procedure for airway management and protection. Medtronica, a leading equipment manufacturer uses four-layer composite tubing with an integrated spiral made of thin spring steel to ensure a balance between rigidity and flexibility.

The composite nature of this material presents a technical problem in production, primarily the layering of the spiral tube from the inside to the outside. The complicated handling and the quality requirements of the two flexible components (PVC liner and steel spring) represent a major hurdle for automation. The intricate winding of the spring onto the liner was regarded as beyond the scope of automation until now. Elettrosystem has made the impossible possible.



Four robots make the impossible possible

Specifically, the automated aspect of this cell involves drawing a fine coil spring made of steel onto a PVC tube and then applying an adhesive sheath. The unique challenge lies in he strictly defined uniform distribution of the spring windings as well as in the handling of the two flexible components.

The automated production of four spiral tubes simultaneously is facilitated by the use of two cells in mirror-