logo eagle sensor datalogger Spritzgießwerkzeug

The intelligent mold data box for monitoring and documentation of the injection molding process.

Functions

Functional principle

Sensors

Production data

Functional principle

The EAGLE sensor datalogger is attached directly to the mould and monitors the injection moulding process in real time with sensors. Definable reference curves with freely definable tolerance range, make it possible to square in real time nominal values and actual values.
If the measured values ​​deviate beyond the tolerance range, a warning is automatically triggered and a notification is sent to the user.
All process data is sent to the TSM platform for visualisation and archiving and can be viewed there.

Sensors

Eagle has the following sensor inputs:

  • Digital inputs
  • Digital inputs

Digital inputs

Digital inputs

The EAGLE sensor datalogger can be connected with the required sensors, for example with:

  • Thermal sensor
  • Pressure sensors
  • Displacement sensors
  • Flow sensors
  • Force transducers
  • Strain gauges
Thermal sensor
Pressure sensors
Displacement Sensors
Flow sensors
Force transducers
Strain gauges

If required, the EAGLE sensor datalogger can be equipped with the following modules :

  • GSM / GPRS module
  • TCP/IP Module
  • Connection via WIFI or Ethernet

GSM / GPRS module

TCP/IP Module

Connection via WIFI or Ethernet

Process data

The various process data are monitored and recorded by the EAGLE sensor datalogger in real time. The process parameters are visualized in the TSM platform by corresponding graphs (relation of the physical unit and the time). By freely definable reference curves and tolerance ranges set points and actual values are permanently squared. The individual parameters and the corresponding quality of the moulded part can be comprehend at any time during the injection moulding process.

Parameter deviations are detected by the EAGLE sensor datalogger in real time and reported to the user. Thus, preventive measures can be initiated, even before critical parameter deviation arises to the process errors, partial or full failures of the systems, inferior quality of moulded parts and in the worst case to production stoppage.