The ID6100 features a built-in sensitivity adjustment to fine-tune operations based on product scale and minimum target temperature.
It utilizes a line CCD camera (Charge-Coupled Device) combined with an infrared filter and specialized lens system to detect IR emissions from the material.
Given the extreme temperatures in a hot rolling mill, the ID6100 is built with an integrated fluid-cooling circuit. Depending on ambient conditions, this circuit can be supplied with air, water, or other cooling fluids. The manual stresses that proper cooling is not optional but essential for the device's survival and consistent operation. Neglecting this aspect is one of the most common installation mistakes.
Understanding the technical limits is vital for proper application of the Infrared CCD Linear-array Photo Sensor. id6100 danieli manual
Inspect encoder wiring, check for loose terminals, or replace the feedback encoder. Over-Temperature
Input the exact value of the test weight using the numeric keypad.
Steam blockages, scaled lenses, or target temperature dropping below 750 °C The ID6100 features a built-in sensitivity adjustment to
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: An analog output (typically 4–20 mA or 0–10 V) indicating the product's deviation from the center line.
: Facilitates quick and precise installation by providing a visual reference for the sensor's field of view. Depending on ambient conditions, this circuit can be
Below is a concise, structured maintenance and operation manual for the ID6100 industrial plate/panel press from Danieli (assumed model: ID6100). I assume you want a full standalone reference covering identification, operation, routine maintenance, troubleshooting, safety, spare parts, and contact/record templates. If you meant a different product, tell me which and I’ll adjust.
Perform initial calibration to set the zero point and gain, typically using a calibration hot object. 3. Operation and Functional Principles
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