Coming from thpresse furnace before the forging
A pyrometer is installed at a working distance of about 1.0-1.5mm; thus, the measurement spot scans the billet during billet linear movement.
A pyrometer is installed at a working distance of about 1.0-1.5mm; thus, the measurement spot scans the billet during billet linear movement.
Pyrometer parameters setting for moving billet measurements
Setup of analytic coefficients for achieving optimal measurements
Setting the initial analytic coefficients for aluminum billets from the 6000 series.
Fine-tuning according to thermocouple reference measurement.
Using the different memory segments for the various alloys
For good measurement accuracy, the pyrometer may work with one memory group and one setup of DY; in case the customer finds that each alloy requires a different DY, we recommend performing these different setups in other groups: Group.1, Group.2, Group 3. After the fine-tuning in each Group, switch the Group when the alloy is changed.
You can switch between the groups in several ways, from a PC, by a special alloy selector box, by PLC and binary code message, by PLC with special software, generating ASCII string according to the pyrometer communication protocol.
By PROFIBUS and PROFINET cards, by CANBUS Net, All is according to customer requirements.
