At Fakuma, Netstal will be producing 10 ml syringe barrels with Luer-Lock adapters made of COC using an all-electric Elion MED with a clamping force of 1750 kN.
Netstal
The part weight is 7.8 g and the cycle time is around 20 seconds. Netstal processes a material from Topas through a precision mould with 8 cavities from Fostag. The seamless monitoring of the thermal processes in the mould is carried out using technology from Mouldflo. Material preparation and feeding is ensured by a system from motan colortronic. HB-Therm provides the latest generation of Thermo 6 temperature control units. System partner SKA is providing the fully automatic handling system consisting of high-speed side removal, parts depositing and an integrated thermal imaging camera for recording the demoulding temperature in the area of the Luer-Lock connection. Another integral part of the automation is the complete recording of process and quality parameters and their aggregation to a unique identifier using a QR code. The injection moulding machine is also connected to the MES from digital partner bfa solutions via OPC-UA / Euromap 77.
Fully electric Netstal Elion for highest precision and maximum production efficiency
The choice of injection moulding machine is an essential prerequisite for permanently assured production quality. With its robust construction designed for maximum reliability, the all-electric Elion MED 1750 offers the ideal prerequisites for unique precision, reproducibility and purity in the medical production environment. The enormous control accuracy is ensured by high-performance mechanics, high-precision measurement technology and sophisticated control technology. The latest Axos 9 control generation also ensures efficient control in the injection moulding process with a sampling rate of 2 kHz. The guided Smart Operation button control ensures smooth operating processes in the production environment and high production efficiency.
During the injection moulding process, a lot of characteristic data is generated that provides information about the production quality. A large number of process parameters are available in the control system, which can be evaluated, displayed and monitored. The main focus is on the shaping phase. The quality of the moulded part is largely determined during this injection and pushing forward phase. Continuous monitoring of all relevant parameters ensures compliance with the validated tolerance limits. Histograms are used to detect a possible deviation trend at an early stage and issue a warning.
Netstal RFC ensures shot weight within the validated process window
Manufacturing processes in medical technology are usually validated and must be kept within the specified tolerance limits. Netstal deliberately avoids software-based adaptation of setpoint specifications, as this can lead to the validated process window being exceeded or undershot. Netstal's solution is called Responsive Filling Control (RFC) and is based on a force-dependent pressure changeover. The technology works with highly accurate and dynamic sensor technology, which is developed and produced exclusively for Netstal. The integrated force control offers conditions for high-precision process control, as it is independent of the material properties and ensures a constant part weight within the tightest tolerances.
Seamless monitoring of the cooling water supply
In addition to the process parameters controlled by the machine, the thermal processes in the injection mould are of great importance for component quality. In medical technology, solutions that can measure and evaluate temperatures and water flow per connection on the mould are becoming increasingly popular. Netstal relies here on the system from market leader Mouldflo, which uses specially developed measuring manifolds to ensure seamless monitoring of the cooling water supply. Based on the vortex principle, the flow rates of each individual cooling circuit are recorded and monitored using highly sensitive sensors. In addition, the water temperature in the flow and return of each cooling circuit is measured. This information provides a comprehensive overall picture of the thermal processes in the mould, which must remain within the validated process window at all times.
The SKA handling system removes the finished syringes and places them on a conveyor belt. The system communicates with the machine via the Euromap 77 interface and provides additional, quality-relevant process indicators. A thermal imaging camera is used to measure the temperature around the Luer lock adapter of the syringes. The aggregated data from the entire injection moulding process is assigned a unique identifier. Each data set can be traced with a displayed QR code.