The infrared thermal imager uses the infrared detector and optical imaging objective lens to receive the infrared radiation energy distribution pattern of the measured target and reflect it on the photosensitive element of the infrared detector, so as to obtain the infrared thermal image, which corresponds to the thermal distribution field on the object surface. Generally speaking, an infrared thermal imager is to convert invisible infrared energy emitted by objects into visible thermal images.
The thermal imager can detect the temperature of the hot spot in real-time, quantitatively, and online within a certain distance. Through scanning, it can also draw the thermal image of the temperature gradient of the equipment in operation. It has high sensitivity, is free from electromagnetic interference, and is convenient for on-site use. It can detect thermal faults of electrical equipment with a high resolution of 0.05 ℃ in a wide range of - 20 ℃~2000 ℃, revealing such as heating of wire joints or clamps, and local hot spots in electrical equipment.
The temperature measurement results can be superimposed and displayed in the visible light video. The temperature measurement technology realizes the real-time temperature measurement area and can realize full-screen temperature measurement, mouse point temperature measurement, maximum, minimum, and average temperature statistics, real-time and historical temperature curves, automatic tracking of moving high-temperature targets, and temperature measurement. Another important function of the TE series is temperature measurement and early warning.
Thermal imaging is the only diagnostic technology that can instantly visualize and verify thermal information. Thermal imaging can accurately measure the surface temperature of the object by quantifying the infrared thermal energy detected by non-contact detection. It can realize the abnormal diagnosis of the environment or object by analyzing the thermal energy distribution and temperature of the scene. It can track the scene or area high-temperature target, and give an alarm when the temperature is higher than the set value.
TE series is a fixed network security thermal imager. Its built-in non-contact temperature measurement function is applicable to fire detection, safety monitoring, and equipment thermal temperature monitoring. It can also be equipped with a PT rotation platform for 360° monitoring.
- Fire prevention and unburned, early warning, timely and accurate alarm positioning:
With a high sensitivity refrigeration type infrared focal plane detector and infrared temperature measurement imaging technology, this product can accurately detect SF6 gas leakage points, and its thermal sensitivity can detect the extremely small temperature difference of the equipment. It is a practical thermal imager.
2. Front-end temperature measurement technology
It can work independently. The front-end thermal imager completes all the temperature measurement work and transmits the infrared image and the original temperature measurement data to the information center or the field workstation. There is no signal compression, no signal loss, and strong anti-interference to ensure the accuracy and stability of the temperature measurement data.
3. High precision, fast and accurate temperature measurement, and good uniformity
In the process of scene transformation, the system can always get all the temperatures of the scene observed in an instant. The image has high uniformity, and there will be no difference in temperature measurement due to scene changes.
4. Large space non-contact fire protection
The system can pass through the smoke caused by combustion, and even in the absence of light, it can still accurately locate the ignition point to help rescue workers quickly extinguish the fire.
5. Accurately locate the ignition point
It requires several probes to complete real-time fire protection monitoring in a large space, without touching the working surface during the monitoring process, which is convenient for installation and daily maintenance.