After capturing infrared radiation within the field of view, thermal cameras convert it into digital signal value indicating the greyscale, and then into images visible to human eyes, hence comes the term “thermal imaging”.
Accuracy is the most important indicator of temperature measurement by infrared thermal imaging cameras. Raytron’s proprietary AItemp algorithm ensures the accuracy of temperature measurement by infrared thermal imaging cameras.
Expand the application of infrared thermal imaging in a number of national economic fields, such as petroleum and petrochemicals, industrial automation, ferrous metallurgy, and electric routine inspection.
In the petroleum and petrochemicals sector, Raytron infrared thermal imaging camera provides predictive maintenance solutions based on data acquisition, analysis and management.
It can accurately determine the operating status of equipment, intelligently trigger alarms, diagnose, and report the cause of equipment failures, making sure the equipment status is always under control, and helping users in the petroleum and petrochemicals industry improve efficiency and safety.
In the field of industrial automation, Raytron infrared thermal imaging camera can locate existing and imminent faults by analyzing the thermal distribution of detection targets, so that mitigation actions can be timely taken.
It is widely used in scenarios such as automated inspection, process control, status detection, and fire alarm to improve efficiency and ensure safety.
In the field of ferrous metallurgy, Raytron infrared thermal imaging camera can be used in scenarios such as raw material fire monitoring, pipeline leakage detection, ladle refractory material monitoring, solid waste tank monitoring.
Compared with visual inspection work, it can issue fault alarms earlier, helping industry users reduce costs and increase efficiency, and promote safe production.
In the aspect of electric routine inspection, Raytron infrared thermal imaging cameras can identify potential thermal defects in a timely manner by monitoring the operating status of power equipment and the external environment.
They can also provide timely alarms and post-event analysis, which greatly improve the operational reliability of power equipment, and help users improve efficiency and ensure safety.