Ultra-high injection performance is required particularly for thin-walled products. In terms of dynamics and injection speed, the hybrid ELIOS series injection units are truly a cut above the rest of the market.
Actuation of the 5-point twin toggle is facilitated through a clever combination of electric and hydro-mechanical drive components. Accordingly, the basic principles of hybrid drive technology are consistently retained
Energy efficiency is a prime factor, particularly given the ever increasing electricity prices. Through the clever combination of different drive technologies, the drive units achieve optimal efficiency values and still retain the necessary power reserves to meet even more demanding applications.
Thanks to its generous installation space and extremely stable construction, the ELIOS is perfect for highly demanding applications within the packaging sector. The comprehensive option package enables each machine to be customized and optimized to meet the commensurate requirements
The ELIOS clamping unit operates with a 5-point twin toggle and is designed for extremely fast and dynamic mold movements and fast cycle times. The generous installation space offers enough room for the large molds often used in the packaging sector.
With a high-performance and flexible controller, you can get the maximum performance from your Netstal machine. aXos was developed to meet the increasingly complex demands of current and future applications. Innovative functions support the simple, quick and fault-free operation in the production environment.
Powerful, fast, precise, energy-efficient and user-oriented: With its innovative drive technology, the ELIOS Series sets new standards in high-performance injection molding. The result is more than fascinating: up to 1000 tons of clamping force, the fastest dry cycle times and previously unsurpassed energy efficiency. Add to that Netstal's proven precision, reliability and user friendliness and you get a highly productive premium system as a successful solution to demanding applications.